v8/test/unittests/interpreter/bytecode-peephole-optimizer-unittest.cc

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// Copyright 2016 the V8 project authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "src/v8.h"
#include "src/factory.h"
#include "src/interpreter/bytecode-peephole-optimizer.h"
#include "src/interpreter/constant-array-builder.h"
#include "src/objects-inl.h"
#include "src/objects.h"
#include "test/unittests/test-utils.h"
namespace v8 {
namespace internal {
namespace interpreter {
class BytecodePeepholeOptimizerTest : public BytecodePipelineStage,
public TestWithIsolateAndZone {
public:
BytecodePeepholeOptimizerTest()
: constant_array_builder_(isolate(), zone()),
peephole_optimizer_(&constant_array_builder_, this) {}
~BytecodePeepholeOptimizerTest() override {}
size_t FlushForOffset() override {
flush_for_offset_count_++;
return 0;
};
void FlushBasicBlock() override { flush_basic_block_count_++; }
void Write(BytecodeNode* node) override {
write_count_++;
last_written_.Clone(node);
}
BytecodePeepholeOptimizer* optimizer() { return &peephole_optimizer_; }
ConstantArrayBuilder* constant_array() { return &constant_array_builder_; }
int flush_for_offset_count() const { return flush_for_offset_count_; }
int flush_basic_block_count() const { return flush_basic_block_count_; }
int write_count() const { return write_count_; }
const BytecodeNode& last_written() const { return last_written_; }
private:
ConstantArrayBuilder constant_array_builder_;
BytecodePeepholeOptimizer peephole_optimizer_;
int flush_for_offset_count_ = 0;
int flush_basic_block_count_ = 0;
int write_count_ = 0;
BytecodeNode last_written_;
};
// Sanity tests.
TEST_F(BytecodePeepholeOptimizerTest, FlushForOffsetPassThrough) {
CHECK_EQ(flush_for_offset_count(), 0);
CHECK_EQ(optimizer()->FlushForOffset(), 0);
CHECK_EQ(flush_for_offset_count(), 1);
}
TEST_F(BytecodePeepholeOptimizerTest, FlushForOffsetRightSize) {
BytecodeNode node(Bytecode::kAdd, Register(0).ToOperand(),
OperandScale::kQuadruple);
optimizer()->Write(&node);
CHECK_EQ(optimizer()->FlushForOffset(), node.Size());
CHECK_EQ(flush_for_offset_count(), 1);
CHECK_EQ(write_count(), 0);
}
TEST_F(BytecodePeepholeOptimizerTest, FlushForOffsetNop) {
BytecodeNode node(Bytecode::kNop);
optimizer()->Write(&node);
CHECK_EQ(optimizer()->FlushForOffset(), 0);
CHECK_EQ(flush_for_offset_count(), 1);
CHECK_EQ(write_count(), 0);
}
TEST_F(BytecodePeepholeOptimizerTest, FlushForOffsetNopExpression) {
BytecodeNode node(Bytecode::kNop);
node.source_info().Update({3, false});
optimizer()->Write(&node);
CHECK_EQ(optimizer()->FlushForOffset(), 0);
CHECK_EQ(flush_for_offset_count(), 1);
CHECK_EQ(write_count(), 0);
}
TEST_F(BytecodePeepholeOptimizerTest, FlushForOffsetNopStatement) {
BytecodeNode node(Bytecode::kNop);
node.source_info().Update({3, true});
optimizer()->Write(&node);
CHECK_EQ(optimizer()->FlushForOffset(), node.Size());
CHECK_EQ(flush_for_offset_count(), 1);
CHECK_EQ(write_count(), 0);
}
TEST_F(BytecodePeepholeOptimizerTest, FlushBasicBlockPassThrough) {
CHECK_EQ(flush_basic_block_count(), 0);
optimizer()->FlushBasicBlock();
CHECK_EQ(flush_basic_block_count(), 1);
CHECK_EQ(write_count(), 0);
}
TEST_F(BytecodePeepholeOptimizerTest, WriteOneFlushBasicBlock) {
BytecodeNode node(Bytecode::kAdd, Register(0).ToOperand(),
OperandScale::kQuadruple);
optimizer()->Write(&node);
CHECK_EQ(write_count(), 0);
optimizer()->FlushBasicBlock();
CHECK_EQ(write_count(), 1);
CHECK_EQ(node, last_written());
}
// Tests covering BytecodePeepholeOptimizer::UpdateCurrentBytecode().
TEST_F(BytecodePeepholeOptimizerTest, KeepJumpIfToBooleanTrue) {
BytecodeNode first(Bytecode::kLdaNull);
BytecodeNode second(Bytecode::kJumpIfToBooleanTrue, 3, OperandScale::kSingle);
optimizer()->Write(&first);
CHECK_EQ(write_count(), 0);
optimizer()->Write(&second);
CHECK_EQ(write_count(), 1);
CHECK_EQ(last_written(), first);
optimizer()->FlushBasicBlock();
CHECK_EQ(write_count(), 2);
CHECK_EQ(last_written(), second);
}
TEST_F(BytecodePeepholeOptimizerTest, ElideJumpIfToBooleanTrue) {
BytecodeNode first(Bytecode::kLdaTrue);
BytecodeNode second(Bytecode::kJumpIfToBooleanTrue, 3, OperandScale::kSingle);
optimizer()->Write(&first);
CHECK_EQ(write_count(), 0);
optimizer()->Write(&second);
CHECK_EQ(write_count(), 1);
CHECK_EQ(last_written(), first);
optimizer()->FlushBasicBlock();
CHECK_EQ(write_count(), 2);
CHECK_EQ(last_written().bytecode(), Bytecode::kJumpIfTrue);
CHECK_EQ(last_written().operand(0), second.operand(0));
}
TEST_F(BytecodePeepholeOptimizerTest, KeepToBooleanLogicalNot) {
BytecodeNode first(Bytecode::kLdaNull);
BytecodeNode second(Bytecode::kToBooleanLogicalNot);
optimizer()->Write(&first);
CHECK_EQ(write_count(), 0);
optimizer()->Write(&second);
CHECK_EQ(write_count(), 1);
CHECK_EQ(last_written(), first);
optimizer()->FlushBasicBlock();
CHECK_EQ(write_count(), 2);
CHECK_EQ(last_written(), second);
}
TEST_F(BytecodePeepholeOptimizerTest, ElideToBooleanLogicalNot) {
BytecodeNode first(Bytecode::kLdaTrue);
BytecodeNode second(Bytecode::kToBooleanLogicalNot);
optimizer()->Write(&first);
CHECK_EQ(write_count(), 0);
optimizer()->Write(&second);
CHECK_EQ(write_count(), 1);
CHECK_EQ(last_written(), first);
optimizer()->FlushBasicBlock();
CHECK_EQ(write_count(), 2);
CHECK_EQ(last_written().bytecode(), Bytecode::kLogicalNot);
}
// Tests covering BytecodePeepholeOptimizer::CanElideCurrent().
TEST_F(BytecodePeepholeOptimizerTest, LdarRxLdarRy) {
BytecodeNode first(Bytecode::kLdar, Register(0).ToOperand(),
OperandScale::kSingle);
BytecodeNode second(Bytecode::kLdar, Register(1).ToOperand(),
OperandScale::kSingle);
optimizer()->Write(&first);
optimizer()->FlushForOffset(); // Prevent CanElideLast removing |first|.
CHECK_EQ(write_count(), 0);
optimizer()->Write(&second);
CHECK_EQ(write_count(), 1);
CHECK_EQ(last_written(), first);
optimizer()->FlushBasicBlock();
CHECK_EQ(write_count(), 2);
CHECK_EQ(last_written(), second);
}
TEST_F(BytecodePeepholeOptimizerTest, LdarRxLdarRx) {
BytecodeNode first(Bytecode::kLdar, Register(0).ToOperand(),
OperandScale::kSingle);
BytecodeNode second(Bytecode::kLdar, Register(0).ToOperand(),
OperandScale::kSingle);
optimizer()->Write(&first);
CHECK_EQ(write_count(), 0);
optimizer()->FlushForOffset(); // Prevent CanElideLast removing |first|.
optimizer()->Write(&second);
CHECK_EQ(write_count(), 1);
CHECK_EQ(last_written(), first);
optimizer()->FlushBasicBlock();
CHECK_EQ(write_count(), 1);
}
TEST_F(BytecodePeepholeOptimizerTest, LdarRxLdarRxStatement) {
BytecodeNode first(Bytecode::kLdar, Register(0).ToOperand(),
OperandScale::kSingle);
BytecodeNode second(Bytecode::kLdar, Register(0).ToOperand(),
OperandScale::kSingle);
second.source_info().Update({0, true});
optimizer()->Write(&first);
CHECK_EQ(write_count(), 0);
optimizer()->FlushForOffset(); // Prevent CanElideLast removing |first|.
optimizer()->Write(&second);
CHECK_EQ(write_count(), 1);
CHECK_EQ(last_written(), first);
optimizer()->FlushBasicBlock();
CHECK_EQ(write_count(), 2);
CHECK_EQ(last_written().bytecode(), Bytecode::kNop);
CHECK_EQ(last_written().source_info(), second.source_info());
}
TEST_F(BytecodePeepholeOptimizerTest, LdarRxLdarRxStatementStarRy) {
BytecodeNode first(Bytecode::kLdar, Register(0).ToOperand(),
OperandScale::kSingle);
BytecodeNode second(Bytecode::kLdar, Register(0).ToOperand(),
OperandScale::kSingle);
BytecodeNode third(Bytecode::kStar, Register(3).ToOperand(),
OperandScale::kSingle);
second.source_info().Update({0, true});
optimizer()->Write(&first);
CHECK_EQ(write_count(), 0);
optimizer()->FlushForOffset(); // Prevent CanElideLast removing |first|.
optimizer()->Write(&second);
CHECK_EQ(write_count(), 1);
CHECK_EQ(last_written(), first);
optimizer()->Write(&third);
CHECK_EQ(write_count(), 1);
optimizer()->FlushBasicBlock();
CHECK_EQ(write_count(), 2);
// Source position should move |second| to |third| when |second| is elided.
third.source_info().Update(second.source_info());
CHECK_EQ(last_written(), third);
}
TEST_F(BytecodePeepholeOptimizerTest, LdarToName) {
BytecodeNode first(Bytecode::kLdar, Register(0).ToOperand(),
OperandScale::kSingle);
BytecodeNode second(Bytecode::kToName);
optimizer()->Write(&first);
CHECK_EQ(write_count(), 0);
optimizer()->Write(&second);
CHECK_EQ(write_count(), 1);
CHECK_EQ(last_written(), first);
optimizer()->FlushBasicBlock();
CHECK_EQ(write_count(), 2);
CHECK_EQ(last_written(), second);
}
TEST_F(BytecodePeepholeOptimizerTest, ToNameToName) {
BytecodeNode first(Bytecode::kToName);
BytecodeNode second(Bytecode::kToName);
optimizer()->Write(&first);
CHECK_EQ(write_count(), 0);
optimizer()->Write(&second);
CHECK_EQ(write_count(), 1);
CHECK_EQ(last_written(), first);
optimizer()->FlushBasicBlock();
CHECK_EQ(write_count(), 1);
}
TEST_F(BytecodePeepholeOptimizerTest, TypeOfToName) {
BytecodeNode first(Bytecode::kTypeOf);
BytecodeNode second(Bytecode::kToName);
optimizer()->Write(&first);
CHECK_EQ(write_count(), 0);
optimizer()->Write(&second);
CHECK_EQ(write_count(), 1);
CHECK_EQ(last_written(), first);
optimizer()->FlushBasicBlock();
CHECK_EQ(write_count(), 1);
}
TEST_F(BytecodePeepholeOptimizerTest, LdaConstantStringToName) {
Handle<Object> word =
isolate()->factory()->NewStringFromStaticChars("optimizing");
size_t index = constant_array()->Insert(word);
BytecodeNode first(Bytecode::kLdaConstant, static_cast<uint32_t>(index),
OperandScale::kSingle);
BytecodeNode second(Bytecode::kToName);
optimizer()->Write(&first);
CHECK_EQ(write_count(), 0);
optimizer()->Write(&second);
CHECK_EQ(write_count(), 1);
CHECK_EQ(last_written(), first);
optimizer()->FlushBasicBlock();
CHECK_EQ(write_count(), 1);
}
TEST_F(BytecodePeepholeOptimizerTest, LdaConstantNumberToName) {
Handle<Object> word = isolate()->factory()->NewNumber(0.380);
size_t index = constant_array()->Insert(word);
BytecodeNode first(Bytecode::kLdaConstant, static_cast<uint32_t>(index),
OperandScale::kSingle);
BytecodeNode second(Bytecode::kToName);
optimizer()->Write(&first);
CHECK_EQ(write_count(), 0);
optimizer()->Write(&second);
CHECK_EQ(write_count(), 1);
CHECK_EQ(last_written(), first);
optimizer()->FlushBasicBlock();
CHECK_EQ(write_count(), 2);
CHECK_EQ(last_written(), second);
}
// Tests covering BytecodePeepholeOptimizer::CanElideLast().
TEST_F(BytecodePeepholeOptimizerTest, LdaTrueLdaFalseNotDiscardable) {
BytecodeNode first(Bytecode::kLdaTrue);
BytecodeNode second(Bytecode::kLdaFalse);
optimizer()->Write(&first);
optimizer()->FlushForOffset(); // Prevent discarding of |first|.
CHECK_EQ(write_count(), 0);
optimizer()->Write(&second);
CHECK_EQ(write_count(), 1);
CHECK_EQ(last_written(), first);
optimizer()->FlushBasicBlock();
CHECK_EQ(write_count(), 2);
CHECK_EQ(last_written(), second);
}
TEST_F(BytecodePeepholeOptimizerTest, LdaTrueLdaFalse) {
BytecodeNode first(Bytecode::kLdaTrue);
BytecodeNode second(Bytecode::kLdaFalse);
optimizer()->Write(&first);
CHECK_EQ(write_count(), 0);
optimizer()->Write(&second);
CHECK_EQ(write_count(), 0);
optimizer()->FlushBasicBlock();
CHECK_EQ(write_count(), 1);
CHECK_EQ(last_written(), second);
}
TEST_F(BytecodePeepholeOptimizerTest, LdaTrueStatementLdaFalse) {
BytecodeNode first(Bytecode::kLdaTrue);
first.source_info().Update({3, false});
BytecodeNode second(Bytecode::kLdaFalse);
optimizer()->Write(&first);
CHECK_EQ(write_count(), 0);
optimizer()->Write(&second);
CHECK_EQ(write_count(), 0);
optimizer()->FlushBasicBlock();
CHECK_EQ(write_count(), 1);
second.source_info().Update(first.source_info());
CHECK_EQ(last_written(), second);
}
TEST_F(BytecodePeepholeOptimizerTest, NopStackCheck) {
BytecodeNode first(Bytecode::kNop);
BytecodeNode second(Bytecode::kStackCheck);
optimizer()->Write(&first);
CHECK_EQ(write_count(), 0);
optimizer()->Write(&second);
CHECK_EQ(write_count(), 0);
optimizer()->FlushBasicBlock();
CHECK_EQ(write_count(), 1);
CHECK_EQ(last_written(), second);
}
TEST_F(BytecodePeepholeOptimizerTest, NopStatementStackCheck) {
BytecodeNode first(Bytecode::kNop);
first.source_info().Update({3, false});
BytecodeNode second(Bytecode::kStackCheck);
optimizer()->Write(&first);
CHECK_EQ(write_count(), 0);
optimizer()->Write(&second);
CHECK_EQ(write_count(), 0);
optimizer()->FlushBasicBlock();
CHECK_EQ(write_count(), 1);
second.source_info().Update(first.source_info());
CHECK_EQ(last_written(), second);
}
} // namespace interpreter
} // namespace internal
} // namespace v8