v8/test/unittests/interpreter/bytecode-array-random-iterator-unittest.cc
Leszek Swirski 2bfd8a7cb7 [ignition] Remove handles from bytecode generation
Removes handles from bytecode generation, instead storing
un-internalized AstValues (and other, similar values such as Scopes and
AstRawStrings) in the constant array builder.

This will allow us in the future to generate the bytecode before
internalizing the AST.

BUG=v8:5832

Change-Id: I3b8be8f7329a484eb1e5d12808b001d3475239da
Reviewed-on: https://chromium-review.googlesource.com/439326
Commit-Queue: Leszek Swirski <leszeks@chromium.org>
Reviewed-by: Marja Hölttä <marja@chromium.org>
Reviewed-by: Ross McIlroy <rmcilroy@chromium.org>
Cr-Commit-Position: refs/heads/master@{#43115}
2017-02-10 17:52:39 +00:00

1026 lines
44 KiB
C++

// Copyright 2015 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/interpreter/bytecode-array-builder.h"
#include "src/interpreter/bytecode-array-random-iterator.h"
#include "src/objects-inl.h"
#include "test/unittests/test-utils.h"
namespace v8 {
namespace internal {
namespace interpreter {
class BytecodeArrayRandomIteratorTest : public TestWithIsolateAndZone {
public:
BytecodeArrayRandomIteratorTest() {}
~BytecodeArrayRandomIteratorTest() override {}
};
TEST_F(BytecodeArrayRandomIteratorTest, InvalidBeforeStart) {
// Use a builder to create an array with containing multiple bytecodes
// with 0, 1 and 2 operands.
BytecodeArrayBuilder builder(isolate(), zone(), 3, 3, 0);
AstValueFactory ast_factory(zone(), isolate()->ast_string_constants(),
isolate()->heap()->HashSeed());
const AstValue* heap_num_0 = ast_factory.NewNumber(2.718);
const AstValue* heap_num_1 = ast_factory.NewNumber(2.0 * Smi::kMaxValue);
Smi* zero = Smi::kZero;
Smi* smi_0 = Smi::FromInt(64);
Smi* smi_1 = Smi::FromInt(-65536);
Register reg_0(0);
Register reg_1(1);
RegisterList pair(0, 2);
RegisterList triple(0, 3);
Register param = Register::FromParameterIndex(2, builder.parameter_count());
const AstRawString* name = ast_factory.GetOneByteString("abc");
uint32_t feedback_slot = 97;
builder.LoadLiteral(heap_num_0)
.StoreAccumulatorInRegister(reg_0)
.LoadLiteral(heap_num_1)
.StoreAccumulatorInRegister(reg_0)
.LoadLiteral(zero)
.StoreAccumulatorInRegister(reg_0)
.LoadLiteral(smi_0)
.StackCheck(0)
.StoreAccumulatorInRegister(reg_0)
.LoadLiteral(smi_1)
.StackCheck(1)
.StoreAccumulatorInRegister(reg_1)
.LoadAccumulatorWithRegister(reg_0)
.BinaryOperation(Token::Value::ADD, reg_0, 2)
.StoreAccumulatorInRegister(reg_1)
.LoadNamedProperty(reg_1, name, feedback_slot)
.BinaryOperation(Token::Value::ADD, reg_0, 3)
.StoreAccumulatorInRegister(param)
.CallRuntimeForPair(Runtime::kLoadLookupSlotForCall, param, pair)
.ForInPrepare(reg_0, triple)
.CallRuntime(Runtime::kLoadIC_Miss, reg_0)
.Debugger()
.LoadGlobal(name, 0x10000000, TypeofMode::NOT_INSIDE_TYPEOF)
.Return();
ast_factory.Internalize(isolate());
Handle<BytecodeArray> bytecodeArray = builder.ToBytecodeArray(isolate());
BytecodeArrayRandomIterator iterator(bytecodeArray, zone());
iterator.GoToStart();
ASSERT_TRUE(iterator.IsValid());
--iterator;
ASSERT_FALSE(iterator.IsValid());
}
TEST_F(BytecodeArrayRandomIteratorTest, InvalidAfterEnd) {
// Use a builder to create an array with containing multiple bytecodes
// with 0, 1 and 2 operands.
BytecodeArrayBuilder builder(isolate(), zone(), 3, 3, 0);
AstValueFactory ast_factory(zone(), isolate()->ast_string_constants(),
isolate()->heap()->HashSeed());
const AstValue* heap_num_0 = ast_factory.NewNumber(2.718);
const AstValue* heap_num_1 = ast_factory.NewNumber(2.0 * Smi::kMaxValue);
Smi* zero = Smi::kZero;
Smi* smi_0 = Smi::FromInt(64);
Smi* smi_1 = Smi::FromInt(-65536);
Register reg_0(0);
Register reg_1(1);
RegisterList pair(0, 2);
RegisterList triple(0, 3);
Register param = Register::FromParameterIndex(2, builder.parameter_count());
const AstRawString* name = ast_factory.GetOneByteString("abc");
uint32_t feedback_slot = 97;
builder.LoadLiteral(heap_num_0)
.StoreAccumulatorInRegister(reg_0)
.LoadLiteral(heap_num_1)
.StoreAccumulatorInRegister(reg_0)
.LoadLiteral(zero)
.StoreAccumulatorInRegister(reg_0)
.LoadLiteral(smi_0)
.StackCheck(0)
.StoreAccumulatorInRegister(reg_0)
.LoadLiteral(smi_1)
.StackCheck(1)
.StoreAccumulatorInRegister(reg_1)
.LoadAccumulatorWithRegister(reg_0)
.BinaryOperation(Token::Value::ADD, reg_0, 2)
.StoreAccumulatorInRegister(reg_1)
.LoadNamedProperty(reg_1, name, feedback_slot)
.BinaryOperation(Token::Value::ADD, reg_0, 3)
.StoreAccumulatorInRegister(param)
.CallRuntimeForPair(Runtime::kLoadLookupSlotForCall, param, pair)
.ForInPrepare(reg_0, triple)
.CallRuntime(Runtime::kLoadIC_Miss, reg_0)
.Debugger()
.LoadGlobal(name, 0x10000000, TypeofMode::NOT_INSIDE_TYPEOF)
.Return();
ast_factory.Internalize(isolate());
Handle<BytecodeArray> bytecodeArray = builder.ToBytecodeArray(isolate());
BytecodeArrayRandomIterator iterator(bytecodeArray, zone());
iterator.GoToEnd();
ASSERT_TRUE(iterator.IsValid());
++iterator;
ASSERT_FALSE(iterator.IsValid());
}
TEST_F(BytecodeArrayRandomIteratorTest, AccessesFirst) {
// Use a builder to create an array with containing multiple bytecodes
// with 0, 1 and 2 operands.
BytecodeArrayBuilder builder(isolate(), zone(), 3, 3, 0);
AstValueFactory ast_factory(zone(), isolate()->ast_string_constants(),
isolate()->heap()->HashSeed());
const AstValue* heap_num_0 = ast_factory.NewNumber(2.718);
const AstValue* heap_num_1 = ast_factory.NewNumber(2.0 * Smi::kMaxValue);
Smi* zero = Smi::kZero;
Smi* smi_0 = Smi::FromInt(64);
Smi* smi_1 = Smi::FromInt(-65536);
Register reg_0(0);
Register reg_1(1);
RegisterList pair(0, 2);
RegisterList triple(0, 3);
Register param = Register::FromParameterIndex(2, builder.parameter_count());
const AstRawString* name = ast_factory.GetOneByteString("abc");
uint32_t feedback_slot = 97;
builder.LoadLiteral(heap_num_0)
.StoreAccumulatorInRegister(reg_0)
.LoadLiteral(heap_num_1)
.StoreAccumulatorInRegister(reg_0)
.LoadLiteral(zero)
.StoreAccumulatorInRegister(reg_0)
.LoadLiteral(smi_0)
.StackCheck(0)
.StoreAccumulatorInRegister(reg_0)
.LoadLiteral(smi_1)
.StackCheck(1)
.StoreAccumulatorInRegister(reg_1)
.LoadAccumulatorWithRegister(reg_0)
.BinaryOperation(Token::Value::ADD, reg_0, 2)
.StoreAccumulatorInRegister(reg_1)
.LoadNamedProperty(reg_1, name, feedback_slot)
.BinaryOperation(Token::Value::ADD, reg_0, 3)
.StoreAccumulatorInRegister(param)
.CallRuntimeForPair(Runtime::kLoadLookupSlotForCall, param, pair)
.ForInPrepare(reg_0, triple)
.CallRuntime(Runtime::kLoadIC_Miss, reg_0)
.Debugger()
.LoadGlobal(name, 0x10000000, TypeofMode::NOT_INSIDE_TYPEOF)
.Return();
ast_factory.Internalize(isolate());
Handle<BytecodeArray> bytecodeArray = builder.ToBytecodeArray(isolate());
BytecodeArrayRandomIterator iterator(bytecodeArray, zone());
iterator.GoToStart();
EXPECT_EQ(iterator.current_bytecode(), Bytecode::kLdaConstant);
EXPECT_EQ(iterator.current_index(), 0);
EXPECT_EQ(iterator.current_offset(), 0);
EXPECT_EQ(iterator.current_operand_scale(), OperandScale::kSingle);
EXPECT_TRUE(iterator.GetConstantForIndexOperand(0).is_identical_to(
heap_num_0->value()));
ASSERT_TRUE(iterator.IsValid());
}
TEST_F(BytecodeArrayRandomIteratorTest, AccessesLast) {
// Use a builder to create an array with containing multiple bytecodes
// with 0, 1 and 2 operands.
BytecodeArrayBuilder builder(isolate(), zone(), 3, 3, 0);
AstValueFactory ast_factory(zone(), isolate()->ast_string_constants(),
isolate()->heap()->HashSeed());
const AstValue* heap_num_0 = ast_factory.NewNumber(2.718);
const AstValue* heap_num_1 = ast_factory.NewNumber(2.0 * Smi::kMaxValue);
Smi* zero = Smi::kZero;
Smi* smi_0 = Smi::FromInt(64);
Smi* smi_1 = Smi::FromInt(-65536);
Register reg_0(0);
Register reg_1(1);
RegisterList pair(0, 2);
RegisterList triple(0, 3);
Register param = Register::FromParameterIndex(2, builder.parameter_count());
const AstRawString* name = ast_factory.GetOneByteString("abc");
uint32_t feedback_slot = 97;
builder.LoadLiteral(heap_num_0)
.StoreAccumulatorInRegister(reg_0)
.LoadLiteral(heap_num_1)
.StoreAccumulatorInRegister(reg_0)
.LoadLiteral(zero)
.StoreAccumulatorInRegister(reg_0)
.LoadLiteral(smi_0)
.StackCheck(0)
.StoreAccumulatorInRegister(reg_0)
.LoadLiteral(smi_1)
.StackCheck(1)
.StoreAccumulatorInRegister(reg_1)
.LoadAccumulatorWithRegister(reg_0)
.BinaryOperation(Token::Value::ADD, reg_0, 2)
.StoreAccumulatorInRegister(reg_1)
.LoadNamedProperty(reg_1, name, feedback_slot)
.BinaryOperation(Token::Value::ADD, reg_0, 3)
.StoreAccumulatorInRegister(param)
.CallRuntimeForPair(Runtime::kLoadLookupSlotForCall, param, pair)
.ForInPrepare(reg_0, triple)
.CallRuntime(Runtime::kLoadIC_Miss, reg_0)
.Debugger()
.LoadGlobal(name, 0x10000000, TypeofMode::NOT_INSIDE_TYPEOF)
.Return();
ast_factory.Internalize(isolate());
Handle<BytecodeArray> bytecodeArray = builder.ToBytecodeArray(isolate());
BytecodeArrayRandomIterator iterator(bytecodeArray, zone());
iterator.GoToEnd();
int offset = bytecodeArray->length() -
Bytecodes::Size(Bytecode::kReturn, OperandScale::kSingle);
EXPECT_EQ(iterator.current_bytecode(), Bytecode::kReturn);
EXPECT_EQ(iterator.current_index(), 23);
EXPECT_EQ(iterator.current_offset(), offset);
EXPECT_EQ(iterator.current_operand_scale(), OperandScale::kSingle);
ASSERT_TRUE(iterator.IsValid());
}
TEST_F(BytecodeArrayRandomIteratorTest, RandomAccessValid) {
// Use a builder to create an array with containing multiple bytecodes
// with 0, 1 and 2 operands.
BytecodeArrayBuilder builder(isolate(), zone(), 3, 3, 0);
AstValueFactory ast_factory(zone(), isolate()->ast_string_constants(),
isolate()->heap()->HashSeed());
const AstValue* heap_num_0 = ast_factory.NewNumber(2.718);
const AstValue* heap_num_1 = ast_factory.NewNumber(2.0 * Smi::kMaxValue);
Smi* zero = Smi::kZero;
Smi* smi_0 = Smi::FromInt(64);
Smi* smi_1 = Smi::FromInt(-65536);
Register reg_0(0);
Register reg_1(1);
RegisterList pair(0, 2);
RegisterList triple(0, 3);
Register param = Register::FromParameterIndex(2, builder.parameter_count());
const AstRawString* name = ast_factory.GetOneByteString("abc");
uint32_t name_index = 2;
uint32_t feedback_slot = 97;
builder.LoadLiteral(heap_num_0)
.StoreAccumulatorInRegister(reg_0)
.LoadLiteral(heap_num_1)
.StoreAccumulatorInRegister(reg_0)
.LoadLiteral(zero)
.StoreAccumulatorInRegister(reg_0)
.LoadLiteral(smi_0)
.StackCheck(0)
.StoreAccumulatorInRegister(reg_0)
.LoadLiteral(smi_1)
.StackCheck(1)
.StoreAccumulatorInRegister(reg_1)
.LoadAccumulatorWithRegister(reg_0)
.BinaryOperation(Token::Value::ADD, reg_0, 2)
.StoreAccumulatorInRegister(reg_1)
.LoadNamedProperty(reg_1, name, feedback_slot)
.BinaryOperation(Token::Value::ADD, reg_0, 3)
.StoreAccumulatorInRegister(param)
.CallRuntimeForPair(Runtime::kLoadLookupSlotForCall, param, pair)
.ForInPrepare(reg_0, triple)
.CallRuntime(Runtime::kLoadIC_Miss, reg_0)
.Debugger()
.LoadGlobal(name, 0x10000000, TypeofMode::NOT_INSIDE_TYPEOF)
.Return();
// Test iterator sees the expected output from the builder.
ast_factory.Internalize(isolate());
BytecodeArrayRandomIterator iterator(builder.ToBytecodeArray(isolate()),
zone());
const int kPrefixByteSize = 1;
int offset = 0;
iterator.GoToIndex(13);
offset = Bytecodes::Size(Bytecode::kLdaConstant, OperandScale::kSingle);
offset += Bytecodes::Size(Bytecode::kStar, OperandScale::kSingle);
offset += Bytecodes::Size(Bytecode::kLdaConstant, OperandScale::kSingle);
offset += Bytecodes::Size(Bytecode::kStar, OperandScale::kSingle);
offset += Bytecodes::Size(Bytecode::kLdaZero, OperandScale::kSingle);
offset += Bytecodes::Size(Bytecode::kStar, OperandScale::kSingle);
offset += Bytecodes::Size(Bytecode::kLdaSmi, OperandScale::kSingle);
offset += Bytecodes::Size(Bytecode::kStackCheck, OperandScale::kSingle);
offset += Bytecodes::Size(Bytecode::kStar, OperandScale::kSingle);
offset += Bytecodes::Size(Bytecode::kLdaSmi, OperandScale::kQuadruple) +
kPrefixByteSize;
offset += Bytecodes::Size(Bytecode::kStackCheck, OperandScale::kSingle);
offset += Bytecodes::Size(Bytecode::kStar, OperandScale::kSingle);
offset += Bytecodes::Size(Bytecode::kLdar, OperandScale::kSingle);
EXPECT_EQ(iterator.current_bytecode(), Bytecode::kAdd);
EXPECT_EQ(iterator.current_index(), 13);
EXPECT_EQ(iterator.current_offset(), offset);
EXPECT_EQ(iterator.current_operand_scale(), OperandScale::kSingle);
EXPECT_EQ(iterator.GetRegisterOperand(0).index(), reg_0.index());
EXPECT_EQ(iterator.GetRegisterOperandRange(0), 1);
ASSERT_TRUE(iterator.IsValid());
iterator.GoToIndex(2);
offset = Bytecodes::Size(Bytecode::kLdaConstant, OperandScale::kSingle);
offset += Bytecodes::Size(Bytecode::kStar, OperandScale::kSingle);
EXPECT_EQ(iterator.current_bytecode(), Bytecode::kLdaConstant);
EXPECT_EQ(iterator.current_index(), 2);
EXPECT_EQ(iterator.current_offset(), offset);
EXPECT_EQ(iterator.current_operand_scale(), OperandScale::kSingle);
EXPECT_TRUE(iterator.GetConstantForIndexOperand(0).is_identical_to(
heap_num_1->value()));
ASSERT_TRUE(iterator.IsValid());
iterator.GoToIndex(18);
offset = Bytecodes::Size(Bytecode::kLdaConstant, OperandScale::kSingle);
offset += Bytecodes::Size(Bytecode::kStar, OperandScale::kSingle);
offset += Bytecodes::Size(Bytecode::kLdaConstant, OperandScale::kSingle);
offset += Bytecodes::Size(Bytecode::kStar, OperandScale::kSingle);
offset += Bytecodes::Size(Bytecode::kLdaZero, OperandScale::kSingle);
offset += Bytecodes::Size(Bytecode::kStar, OperandScale::kSingle);
offset += Bytecodes::Size(Bytecode::kLdaSmi, OperandScale::kSingle);
offset += Bytecodes::Size(Bytecode::kStackCheck, OperandScale::kSingle);
offset += Bytecodes::Size(Bytecode::kStar, OperandScale::kSingle);
offset += Bytecodes::Size(Bytecode::kLdaSmi, OperandScale::kQuadruple) +
kPrefixByteSize;
offset += Bytecodes::Size(Bytecode::kStackCheck, OperandScale::kSingle);
offset += Bytecodes::Size(Bytecode::kStar, OperandScale::kSingle);
offset += Bytecodes::Size(Bytecode::kLdar, OperandScale::kSingle);
offset += Bytecodes::Size(Bytecode::kAdd, OperandScale::kSingle);
offset += Bytecodes::Size(Bytecode::kStar, OperandScale::kSingle);
offset += Bytecodes::Size(Bytecode::kLdaNamedProperty, OperandScale::kSingle);
offset += Bytecodes::Size(Bytecode::kAdd, OperandScale::kSingle);
offset += Bytecodes::Size(Bytecode::kStar, OperandScale::kSingle);
EXPECT_EQ(iterator.current_bytecode(), Bytecode::kCallRuntimeForPair);
EXPECT_EQ(iterator.current_index(), 18);
EXPECT_EQ(iterator.current_offset(), offset);
EXPECT_EQ(iterator.current_operand_scale(), OperandScale::kSingle);
EXPECT_EQ(iterator.GetRuntimeIdOperand(0), Runtime::kLoadLookupSlotForCall);
EXPECT_EQ(iterator.GetRegisterOperand(1).index(), param.index());
EXPECT_EQ(iterator.GetRegisterOperandRange(1), 1);
EXPECT_EQ(iterator.GetRegisterCountOperand(2), 1u);
EXPECT_EQ(iterator.GetRegisterOperand(3).index(), reg_0.index());
EXPECT_EQ(iterator.GetRegisterOperandRange(3), 2);
ASSERT_TRUE(iterator.IsValid());
iterator -= 3;
offset -= Bytecodes::Size(Bytecode::kStar, OperandScale::kSingle);
offset -= Bytecodes::Size(Bytecode::kAdd, OperandScale::kSingle);
offset -= Bytecodes::Size(Bytecode::kLdaNamedProperty, OperandScale::kSingle);
EXPECT_EQ(iterator.current_bytecode(), Bytecode::kLdaNamedProperty);
EXPECT_EQ(iterator.current_index(), 15);
EXPECT_EQ(iterator.current_offset(), offset);
EXPECT_EQ(iterator.current_operand_scale(), OperandScale::kSingle);
EXPECT_EQ(iterator.GetRegisterOperand(0).index(), reg_1.index());
EXPECT_EQ(iterator.GetIndexOperand(1), name_index);
EXPECT_EQ(iterator.GetIndexOperand(2), feedback_slot);
ASSERT_TRUE(iterator.IsValid());
iterator += 2;
offset += Bytecodes::Size(Bytecode::kLdaNamedProperty, OperandScale::kSingle);
offset += Bytecodes::Size(Bytecode::kAdd, OperandScale::kSingle);
EXPECT_EQ(iterator.current_bytecode(), Bytecode::kStar);
EXPECT_EQ(iterator.current_index(), 17);
EXPECT_EQ(iterator.current_offset(), offset);
EXPECT_EQ(iterator.current_operand_scale(), OperandScale::kSingle);
EXPECT_EQ(iterator.GetRegisterOperand(0).index(), param.index());
EXPECT_EQ(iterator.GetRegisterOperandRange(0), 1);
ASSERT_TRUE(iterator.IsValid());
iterator.GoToIndex(23);
offset = Bytecodes::Size(Bytecode::kLdaConstant, OperandScale::kSingle);
offset += Bytecodes::Size(Bytecode::kStar, OperandScale::kSingle);
offset += Bytecodes::Size(Bytecode::kLdaConstant, OperandScale::kSingle);
offset += Bytecodes::Size(Bytecode::kStar, OperandScale::kSingle);
offset += Bytecodes::Size(Bytecode::kLdaZero, OperandScale::kSingle);
offset += Bytecodes::Size(Bytecode::kStar, OperandScale::kSingle);
offset += Bytecodes::Size(Bytecode::kLdaSmi, OperandScale::kSingle);
offset += Bytecodes::Size(Bytecode::kStackCheck, OperandScale::kSingle);
offset += Bytecodes::Size(Bytecode::kStar, OperandScale::kSingle);
offset += Bytecodes::Size(Bytecode::kLdaSmi, OperandScale::kQuadruple) +
kPrefixByteSize;
offset += Bytecodes::Size(Bytecode::kStackCheck, OperandScale::kSingle);
offset += Bytecodes::Size(Bytecode::kStar, OperandScale::kSingle);
offset += Bytecodes::Size(Bytecode::kLdar, OperandScale::kSingle);
offset += Bytecodes::Size(Bytecode::kAdd, OperandScale::kSingle);
offset += Bytecodes::Size(Bytecode::kStar, OperandScale::kSingle);
offset += Bytecodes::Size(Bytecode::kLdaNamedProperty, OperandScale::kSingle);
offset += Bytecodes::Size(Bytecode::kAdd, OperandScale::kSingle);
offset += Bytecodes::Size(Bytecode::kStar, OperandScale::kSingle);
offset +=
Bytecodes::Size(Bytecode::kCallRuntimeForPair, OperandScale::kSingle);
offset += Bytecodes::Size(Bytecode::kForInPrepare, OperandScale::kSingle);
offset += Bytecodes::Size(Bytecode::kCallRuntime, OperandScale::kSingle);
offset += Bytecodes::Size(Bytecode::kDebugger, OperandScale::kSingle);
offset += Bytecodes::Size(Bytecode::kLdaGlobal, OperandScale::kQuadruple) +
kPrefixByteSize;
EXPECT_EQ(iterator.current_bytecode(), Bytecode::kReturn);
EXPECT_EQ(iterator.current_index(), 23);
EXPECT_EQ(iterator.current_offset(), offset);
EXPECT_EQ(iterator.current_operand_scale(), OperandScale::kSingle);
ASSERT_TRUE(iterator.IsValid());
iterator.GoToIndex(24);
EXPECT_FALSE(iterator.IsValid());
iterator.GoToIndex(-5);
EXPECT_FALSE(iterator.IsValid());
}
TEST_F(BytecodeArrayRandomIteratorTest, IteratesBytecodeArray) {
// Use a builder to create an array with containing multiple bytecodes
// with 0, 1 and 2 operands.
BytecodeArrayBuilder builder(isolate(), zone(), 3, 3, 0);
AstValueFactory ast_factory(zone(), isolate()->ast_string_constants(),
isolate()->heap()->HashSeed());
const AstValue* heap_num_0 = ast_factory.NewNumber(2.718);
const AstValue* heap_num_1 = ast_factory.NewNumber(2.0 * Smi::kMaxValue);
Smi* zero = Smi::kZero;
Smi* smi_0 = Smi::FromInt(64);
Smi* smi_1 = Smi::FromInt(-65536);
Register reg_0(0);
Register reg_1(1);
RegisterList pair(0, 2);
RegisterList triple(0, 3);
Register param = Register::FromParameterIndex(2, builder.parameter_count());
const AstRawString* name = ast_factory.GetOneByteString("abc");
uint32_t name_index = 2;
uint32_t feedback_slot = 97;
builder.LoadLiteral(heap_num_0)
.StoreAccumulatorInRegister(reg_0)
.LoadLiteral(heap_num_1)
.StoreAccumulatorInRegister(reg_0)
.LoadLiteral(zero)
.StoreAccumulatorInRegister(reg_0)
.LoadLiteral(smi_0)
.StackCheck(0)
.StoreAccumulatorInRegister(reg_0)
.LoadLiteral(smi_1)
.StackCheck(1)
.StoreAccumulatorInRegister(reg_1)
.LoadAccumulatorWithRegister(reg_0)
.BinaryOperation(Token::Value::ADD, reg_0, 2)
.StoreAccumulatorInRegister(reg_1)
.LoadNamedProperty(reg_1, name, feedback_slot)
.BinaryOperation(Token::Value::ADD, reg_0, 3)
.StoreAccumulatorInRegister(param)
.CallRuntimeForPair(Runtime::kLoadLookupSlotForCall, param, pair)
.ForInPrepare(reg_0, triple)
.CallRuntime(Runtime::kLoadIC_Miss, reg_0)
.Debugger()
.LoadGlobal(name, 0x10000000, TypeofMode::NOT_INSIDE_TYPEOF)
.Return();
// Test iterator sees the expected output from the builder.
ast_factory.Internalize(isolate());
BytecodeArrayRandomIterator iterator(builder.ToBytecodeArray(isolate()),
zone());
const int kPrefixByteSize = 1;
int offset = 0;
EXPECT_EQ(iterator.current_bytecode(), Bytecode::kLdaConstant);
EXPECT_EQ(iterator.current_index(), 0);
EXPECT_EQ(iterator.current_offset(), offset);
EXPECT_EQ(iterator.current_operand_scale(), OperandScale::kSingle);
EXPECT_TRUE(iterator.GetConstantForIndexOperand(0).is_identical_to(
heap_num_0->value()));
ASSERT_TRUE(iterator.IsValid());
offset += Bytecodes::Size(Bytecode::kLdaConstant, OperandScale::kSingle);
++iterator;
EXPECT_EQ(iterator.current_bytecode(), Bytecode::kStar);
EXPECT_EQ(iterator.current_index(), 1);
EXPECT_EQ(iterator.current_offset(), offset);
EXPECT_EQ(iterator.current_operand_scale(), OperandScale::kSingle);
EXPECT_EQ(iterator.GetRegisterOperand(0).index(), reg_0.index());
EXPECT_EQ(iterator.GetRegisterOperandRange(0), 1);
ASSERT_TRUE(iterator.IsValid());
offset += Bytecodes::Size(Bytecode::kStar, OperandScale::kSingle);
++iterator;
EXPECT_EQ(iterator.current_bytecode(), Bytecode::kLdaConstant);
EXPECT_EQ(iterator.current_index(), 2);
EXPECT_EQ(iterator.current_offset(), offset);
EXPECT_EQ(iterator.current_operand_scale(), OperandScale::kSingle);
EXPECT_TRUE(iterator.GetConstantForIndexOperand(0).is_identical_to(
heap_num_1->value()));
ASSERT_TRUE(iterator.IsValid());
offset += Bytecodes::Size(Bytecode::kLdaConstant, OperandScale::kSingle);
++iterator;
EXPECT_EQ(iterator.current_bytecode(), Bytecode::kStar);
EXPECT_EQ(iterator.current_index(), 3);
EXPECT_EQ(iterator.current_offset(), offset);
EXPECT_EQ(iterator.current_operand_scale(), OperandScale::kSingle);
EXPECT_EQ(iterator.GetRegisterOperand(0).index(), reg_0.index());
EXPECT_EQ(iterator.GetRegisterOperandRange(0), 1);
ASSERT_TRUE(iterator.IsValid());
offset += Bytecodes::Size(Bytecode::kStar, OperandScale::kSingle);
++iterator;
EXPECT_EQ(iterator.current_bytecode(), Bytecode::kLdaZero);
EXPECT_EQ(iterator.current_index(), 4);
EXPECT_EQ(iterator.current_offset(), offset);
EXPECT_EQ(iterator.current_operand_scale(), OperandScale::kSingle);
ASSERT_TRUE(iterator.IsValid());
offset += Bytecodes::Size(Bytecode::kLdaZero, OperandScale::kSingle);
++iterator;
EXPECT_EQ(iterator.current_bytecode(), Bytecode::kStar);
EXPECT_EQ(iterator.current_index(), 5);
EXPECT_EQ(iterator.current_offset(), offset);
EXPECT_EQ(iterator.current_operand_scale(), OperandScale::kSingle);
EXPECT_EQ(iterator.GetRegisterOperand(0).index(), reg_0.index());
EXPECT_EQ(iterator.GetRegisterOperandRange(0), 1);
ASSERT_TRUE(iterator.IsValid());
offset += Bytecodes::Size(Bytecode::kStar, OperandScale::kSingle);
++iterator;
EXPECT_EQ(iterator.current_bytecode(), Bytecode::kLdaSmi);
EXPECT_EQ(iterator.current_index(), 6);
EXPECT_EQ(iterator.current_offset(), offset);
EXPECT_EQ(iterator.current_operand_scale(), OperandScale::kSingle);
EXPECT_EQ(Smi::FromInt(iterator.GetImmediateOperand(0)), smi_0);
ASSERT_TRUE(iterator.IsValid());
offset += Bytecodes::Size(Bytecode::kLdaSmi, OperandScale::kSingle);
++iterator;
EXPECT_EQ(iterator.current_bytecode(), Bytecode::kStackCheck);
EXPECT_EQ(iterator.current_index(), 7);
EXPECT_EQ(iterator.current_offset(), offset);
EXPECT_EQ(iterator.current_operand_scale(), OperandScale::kSingle);
EXPECT_EQ(Bytecodes::NumberOfOperands(iterator.current_bytecode()), 0);
ASSERT_TRUE(iterator.IsValid());
offset += Bytecodes::Size(Bytecode::kStackCheck, OperandScale::kSingle);
++iterator;
EXPECT_EQ(iterator.current_bytecode(), Bytecode::kStar);
EXPECT_EQ(iterator.current_index(), 8);
EXPECT_EQ(iterator.current_offset(), offset);
EXPECT_EQ(iterator.current_operand_scale(), OperandScale::kSingle);
EXPECT_EQ(iterator.GetRegisterOperand(0).index(), reg_0.index());
EXPECT_EQ(iterator.GetRegisterOperandRange(0), 1);
ASSERT_TRUE(iterator.IsValid());
offset += Bytecodes::Size(Bytecode::kStar, OperandScale::kSingle);
++iterator;
EXPECT_EQ(iterator.current_bytecode(), Bytecode::kLdaSmi);
EXPECT_EQ(iterator.current_index(), 9);
EXPECT_EQ(iterator.current_offset(), offset);
EXPECT_EQ(iterator.current_operand_scale(), OperandScale::kQuadruple);
EXPECT_EQ(Smi::FromInt(iterator.GetImmediateOperand(0)), smi_1);
ASSERT_TRUE(iterator.IsValid());
offset += Bytecodes::Size(Bytecode::kLdaSmi, OperandScale::kQuadruple) +
kPrefixByteSize;
++iterator;
EXPECT_EQ(iterator.current_bytecode(), Bytecode::kStackCheck);
EXPECT_EQ(iterator.current_index(), 10);
EXPECT_EQ(iterator.current_offset(), offset);
EXPECT_EQ(iterator.current_operand_scale(), OperandScale::kSingle);
EXPECT_EQ(Bytecodes::NumberOfOperands(iterator.current_bytecode()), 0);
ASSERT_TRUE(iterator.IsValid());
offset += Bytecodes::Size(Bytecode::kStackCheck, OperandScale::kSingle);
++iterator;
EXPECT_EQ(iterator.current_bytecode(), Bytecode::kStar);
EXPECT_EQ(iterator.current_index(), 11);
EXPECT_EQ(iterator.current_offset(), offset);
EXPECT_EQ(iterator.current_operand_scale(), OperandScale::kSingle);
EXPECT_EQ(iterator.GetRegisterOperand(0).index(), reg_1.index());
EXPECT_EQ(iterator.GetRegisterOperandRange(0), 1);
ASSERT_TRUE(iterator.IsValid());
offset += Bytecodes::Size(Bytecode::kStar, OperandScale::kSingle);
++iterator;
EXPECT_EQ(iterator.current_bytecode(), Bytecode::kLdar);
EXPECT_EQ(iterator.current_index(), 12);
EXPECT_EQ(iterator.current_offset(), offset);
EXPECT_EQ(iterator.current_operand_scale(), OperandScale::kSingle);
EXPECT_EQ(iterator.GetRegisterOperand(0).index(), reg_0.index());
ASSERT_TRUE(iterator.IsValid());
offset += Bytecodes::Size(Bytecode::kLdar, OperandScale::kSingle);
++iterator;
EXPECT_EQ(iterator.current_bytecode(), Bytecode::kAdd);
EXPECT_EQ(iterator.current_index(), 13);
EXPECT_EQ(iterator.current_offset(), offset);
EXPECT_EQ(iterator.current_operand_scale(), OperandScale::kSingle);
EXPECT_EQ(iterator.GetRegisterOperand(0).index(), reg_0.index());
EXPECT_EQ(iterator.GetRegisterOperandRange(0), 1);
ASSERT_TRUE(iterator.IsValid());
offset += Bytecodes::Size(Bytecode::kAdd, OperandScale::kSingle);
++iterator;
EXPECT_EQ(iterator.current_bytecode(), Bytecode::kStar);
EXPECT_EQ(iterator.current_index(), 14);
EXPECT_EQ(iterator.current_offset(), offset);
EXPECT_EQ(iterator.current_operand_scale(), OperandScale::kSingle);
EXPECT_EQ(iterator.GetRegisterOperand(0).index(), reg_1.index());
EXPECT_EQ(iterator.GetRegisterOperandRange(0), 1);
ASSERT_TRUE(iterator.IsValid());
offset += Bytecodes::Size(Bytecode::kStar, OperandScale::kSingle);
++iterator;
EXPECT_EQ(iterator.current_bytecode(), Bytecode::kLdaNamedProperty);
EXPECT_EQ(iterator.current_index(), 15);
EXPECT_EQ(iterator.current_offset(), offset);
EXPECT_EQ(iterator.current_operand_scale(), OperandScale::kSingle);
EXPECT_EQ(iterator.GetRegisterOperand(0).index(), reg_1.index());
EXPECT_EQ(iterator.GetIndexOperand(1), name_index);
EXPECT_EQ(iterator.GetIndexOperand(2), feedback_slot);
ASSERT_TRUE(iterator.IsValid());
offset += Bytecodes::Size(Bytecode::kLdaNamedProperty, OperandScale::kSingle);
++iterator;
EXPECT_EQ(iterator.current_bytecode(), Bytecode::kAdd);
EXPECT_EQ(iterator.current_index(), 16);
EXPECT_EQ(iterator.current_offset(), offset);
EXPECT_EQ(iterator.current_operand_scale(), OperandScale::kSingle);
EXPECT_EQ(iterator.GetRegisterOperand(0).index(), reg_0.index());
EXPECT_EQ(iterator.GetRegisterOperandRange(0), 1);
ASSERT_TRUE(iterator.IsValid());
offset += Bytecodes::Size(Bytecode::kAdd, OperandScale::kSingle);
++iterator;
EXPECT_EQ(iterator.current_bytecode(), Bytecode::kStar);
EXPECT_EQ(iterator.current_index(), 17);
EXPECT_EQ(iterator.current_offset(), offset);
EXPECT_EQ(iterator.current_operand_scale(), OperandScale::kSingle);
EXPECT_EQ(iterator.GetRegisterOperand(0).index(), param.index());
EXPECT_EQ(iterator.GetRegisterOperandRange(0), 1);
ASSERT_TRUE(iterator.IsValid());
offset += Bytecodes::Size(Bytecode::kStar, OperandScale::kSingle);
++iterator;
EXPECT_EQ(iterator.current_bytecode(), Bytecode::kCallRuntimeForPair);
EXPECT_EQ(iterator.current_index(), 18);
EXPECT_EQ(iterator.current_offset(), offset);
EXPECT_EQ(iterator.current_operand_scale(), OperandScale::kSingle);
EXPECT_EQ(iterator.GetRuntimeIdOperand(0), Runtime::kLoadLookupSlotForCall);
EXPECT_EQ(iterator.GetRegisterOperand(1).index(), param.index());
EXPECT_EQ(iterator.GetRegisterOperandRange(1), 1);
EXPECT_EQ(iterator.GetRegisterCountOperand(2), 1u);
EXPECT_EQ(iterator.GetRegisterOperand(3).index(), reg_0.index());
EXPECT_EQ(iterator.GetRegisterOperandRange(3), 2);
ASSERT_TRUE(iterator.IsValid());
offset +=
Bytecodes::Size(Bytecode::kCallRuntimeForPair, OperandScale::kSingle);
++iterator;
EXPECT_EQ(iterator.current_bytecode(), Bytecode::kForInPrepare);
EXPECT_EQ(iterator.current_index(), 19);
EXPECT_EQ(iterator.current_offset(), offset);
EXPECT_EQ(iterator.current_operand_scale(), OperandScale::kSingle);
EXPECT_EQ(iterator.GetRegisterOperand(0).index(), reg_0.index());
EXPECT_EQ(iterator.GetRegisterOperandRange(0), 1);
EXPECT_EQ(iterator.GetRegisterOperand(1).index(), reg_0.index());
EXPECT_EQ(iterator.GetRegisterOperandRange(1), 3);
ASSERT_TRUE(iterator.IsValid());
offset += Bytecodes::Size(Bytecode::kForInPrepare, OperandScale::kSingle);
++iterator;
EXPECT_EQ(iterator.current_bytecode(), Bytecode::kCallRuntime);
EXPECT_EQ(iterator.current_index(), 20);
EXPECT_EQ(iterator.current_offset(), offset);
EXPECT_EQ(iterator.current_operand_scale(), OperandScale::kSingle);
EXPECT_EQ(iterator.GetRuntimeIdOperand(0), Runtime::kLoadIC_Miss);
EXPECT_EQ(iterator.GetRegisterOperand(1).index(), reg_0.index());
EXPECT_EQ(iterator.GetRegisterCountOperand(2), 1u);
ASSERT_TRUE(iterator.IsValid());
offset += Bytecodes::Size(Bytecode::kCallRuntime, OperandScale::kSingle);
++iterator;
EXPECT_EQ(iterator.current_bytecode(), Bytecode::kDebugger);
EXPECT_EQ(iterator.current_index(), 21);
EXPECT_EQ(iterator.current_offset(), offset);
EXPECT_EQ(iterator.current_operand_scale(), OperandScale::kSingle);
ASSERT_TRUE(iterator.IsValid());
offset += Bytecodes::Size(Bytecode::kDebugger, OperandScale::kSingle);
++iterator;
EXPECT_EQ(iterator.current_bytecode(), Bytecode::kLdaGlobal);
EXPECT_EQ(iterator.current_index(), 22);
EXPECT_EQ(iterator.current_offset(), offset);
EXPECT_EQ(iterator.current_operand_scale(), OperandScale::kQuadruple);
EXPECT_EQ(iterator.current_bytecode_size(), 10);
EXPECT_EQ(iterator.GetIndexOperand(1), 0x10000000u);
offset += Bytecodes::Size(Bytecode::kLdaGlobal, OperandScale::kQuadruple) +
kPrefixByteSize;
++iterator;
EXPECT_EQ(iterator.current_bytecode(), Bytecode::kReturn);
EXPECT_EQ(iterator.current_index(), 23);
EXPECT_EQ(iterator.current_offset(), offset);
EXPECT_EQ(iterator.current_operand_scale(), OperandScale::kSingle);
ASSERT_TRUE(iterator.IsValid());
++iterator;
ASSERT_TRUE(!iterator.IsValid());
}
TEST_F(BytecodeArrayRandomIteratorTest, IteratesBytecodeArrayBackwards) {
// Use a builder to create an array with containing multiple bytecodes
// with 0, 1 and 2 operands.
BytecodeArrayBuilder builder(isolate(), zone(), 3, 3, 0);
AstValueFactory ast_factory(zone(), isolate()->ast_string_constants(),
isolate()->heap()->HashSeed());
const AstValue* heap_num_0 = ast_factory.NewNumber(2.718);
const AstValue* heap_num_1 = ast_factory.NewNumber(2.0 * Smi::kMaxValue);
Smi* zero = Smi::kZero;
Smi* smi_0 = Smi::FromInt(64);
Smi* smi_1 = Smi::FromInt(-65536);
Register reg_0(0);
Register reg_1(1);
RegisterList pair(0, 2);
RegisterList triple(0, 3);
Register param = Register::FromParameterIndex(2, builder.parameter_count());
const AstRawString* name = ast_factory.GetOneByteString("abc");
uint32_t name_index = 2;
uint32_t feedback_slot = 97;
builder.LoadLiteral(heap_num_0)
.StoreAccumulatorInRegister(reg_0)
.LoadLiteral(heap_num_1)
.StoreAccumulatorInRegister(reg_0)
.LoadLiteral(zero)
.StoreAccumulatorInRegister(reg_0)
.LoadLiteral(smi_0)
.StackCheck(0)
.StoreAccumulatorInRegister(reg_0)
.LoadLiteral(smi_1)
.StackCheck(1)
.StoreAccumulatorInRegister(reg_1)
.LoadAccumulatorWithRegister(reg_0)
.BinaryOperation(Token::Value::ADD, reg_0, 2)
.StoreAccumulatorInRegister(reg_1)
.LoadNamedProperty(reg_1, name, feedback_slot)
.BinaryOperation(Token::Value::ADD, reg_0, 3)
.StoreAccumulatorInRegister(param)
.CallRuntimeForPair(Runtime::kLoadLookupSlotForCall, param, pair)
.ForInPrepare(reg_0, triple)
.CallRuntime(Runtime::kLoadIC_Miss, reg_0)
.Debugger()
.LoadGlobal(name, 0x10000000, TypeofMode::NOT_INSIDE_TYPEOF)
.Return();
// Test iterator sees the expected output from the builder.
ast_factory.Internalize(isolate());
Handle<BytecodeArray> bytecodeArray = builder.ToBytecodeArray(isolate());
BytecodeArrayRandomIterator iterator(bytecodeArray, zone());
const int kPrefixByteSize = 1;
int offset = bytecodeArray->length();
iterator.GoToEnd();
offset -= Bytecodes::Size(Bytecode::kReturn, OperandScale::kSingle);
EXPECT_EQ(iterator.current_bytecode(), Bytecode::kReturn);
EXPECT_EQ(iterator.current_index(), 23);
EXPECT_EQ(iterator.current_offset(), offset);
EXPECT_EQ(iterator.current_operand_scale(), OperandScale::kSingle);
ASSERT_TRUE(iterator.IsValid());
--iterator;
offset -= Bytecodes::Size(Bytecode::kLdaGlobal, OperandScale::kQuadruple) +
kPrefixByteSize;
EXPECT_EQ(iterator.current_bytecode(), Bytecode::kLdaGlobal);
EXPECT_EQ(iterator.current_index(), 22);
EXPECT_EQ(iterator.current_offset(), offset);
EXPECT_EQ(iterator.current_operand_scale(), OperandScale::kQuadruple);
EXPECT_EQ(iterator.current_bytecode_size(), 10);
EXPECT_EQ(iterator.GetIndexOperand(1), 0x10000000u);
--iterator;
offset -= Bytecodes::Size(Bytecode::kDebugger, OperandScale::kSingle);
EXPECT_EQ(iterator.current_bytecode(), Bytecode::kDebugger);
EXPECT_EQ(iterator.current_index(), 21);
EXPECT_EQ(iterator.current_offset(), offset);
EXPECT_EQ(iterator.current_operand_scale(), OperandScale::kSingle);
ASSERT_TRUE(iterator.IsValid());
--iterator;
offset -= Bytecodes::Size(Bytecode::kCallRuntime, OperandScale::kSingle);
EXPECT_EQ(iterator.current_bytecode(), Bytecode::kCallRuntime);
EXPECT_EQ(iterator.current_index(), 20);
EXPECT_EQ(iterator.current_offset(), offset);
EXPECT_EQ(iterator.current_operand_scale(), OperandScale::kSingle);
EXPECT_EQ(iterator.GetRuntimeIdOperand(0), Runtime::kLoadIC_Miss);
EXPECT_EQ(iterator.GetRegisterOperand(1).index(), reg_0.index());
EXPECT_EQ(iterator.GetRegisterCountOperand(2), 1u);
ASSERT_TRUE(iterator.IsValid());
--iterator;
offset -= Bytecodes::Size(Bytecode::kForInPrepare, OperandScale::kSingle);
EXPECT_EQ(iterator.current_bytecode(), Bytecode::kForInPrepare);
EXPECT_EQ(iterator.current_index(), 19);
EXPECT_EQ(iterator.current_offset(), offset);
EXPECT_EQ(iterator.current_operand_scale(), OperandScale::kSingle);
EXPECT_EQ(iterator.GetRegisterOperand(0).index(), reg_0.index());
EXPECT_EQ(iterator.GetRegisterOperandRange(0), 1);
EXPECT_EQ(iterator.GetRegisterOperand(1).index(), reg_0.index());
EXPECT_EQ(iterator.GetRegisterOperandRange(1), 3);
ASSERT_TRUE(iterator.IsValid());
--iterator;
offset -=
Bytecodes::Size(Bytecode::kCallRuntimeForPair, OperandScale::kSingle);
EXPECT_EQ(iterator.current_bytecode(), Bytecode::kCallRuntimeForPair);
EXPECT_EQ(iterator.current_index(), 18);
EXPECT_EQ(iterator.current_offset(), offset);
EXPECT_EQ(iterator.current_operand_scale(), OperandScale::kSingle);
EXPECT_EQ(iterator.GetRuntimeIdOperand(0), Runtime::kLoadLookupSlotForCall);
EXPECT_EQ(iterator.GetRegisterOperand(1).index(), param.index());
EXPECT_EQ(iterator.GetRegisterOperandRange(1), 1);
EXPECT_EQ(iterator.GetRegisterCountOperand(2), 1u);
EXPECT_EQ(iterator.GetRegisterOperand(3).index(), reg_0.index());
EXPECT_EQ(iterator.GetRegisterOperandRange(3), 2);
ASSERT_TRUE(iterator.IsValid());
--iterator;
offset -= Bytecodes::Size(Bytecode::kStar, OperandScale::kSingle);
EXPECT_EQ(iterator.current_bytecode(), Bytecode::kStar);
EXPECT_EQ(iterator.current_index(), 17);
EXPECT_EQ(iterator.current_offset(), offset);
EXPECT_EQ(iterator.current_operand_scale(), OperandScale::kSingle);
EXPECT_EQ(iterator.GetRegisterOperand(0).index(), param.index());
EXPECT_EQ(iterator.GetRegisterOperandRange(0), 1);
ASSERT_TRUE(iterator.IsValid());
--iterator;
offset -= Bytecodes::Size(Bytecode::kAdd, OperandScale::kSingle);
EXPECT_EQ(iterator.current_bytecode(), Bytecode::kAdd);
EXPECT_EQ(iterator.current_index(), 16);
EXPECT_EQ(iterator.current_offset(), offset);
EXPECT_EQ(iterator.current_operand_scale(), OperandScale::kSingle);
EXPECT_EQ(iterator.GetRegisterOperand(0).index(), reg_0.index());
EXPECT_EQ(iterator.GetRegisterOperandRange(0), 1);
ASSERT_TRUE(iterator.IsValid());
--iterator;
offset -= Bytecodes::Size(Bytecode::kLdaNamedProperty, OperandScale::kSingle);
EXPECT_EQ(iterator.current_bytecode(), Bytecode::kLdaNamedProperty);
EXPECT_EQ(iterator.current_index(), 15);
EXPECT_EQ(iterator.current_offset(), offset);
EXPECT_EQ(iterator.current_operand_scale(), OperandScale::kSingle);
EXPECT_EQ(iterator.GetRegisterOperand(0).index(), reg_1.index());
EXPECT_EQ(iterator.GetIndexOperand(1), name_index);
EXPECT_EQ(iterator.GetIndexOperand(2), feedback_slot);
ASSERT_TRUE(iterator.IsValid());
--iterator;
offset -= Bytecodes::Size(Bytecode::kStar, OperandScale::kSingle);
EXPECT_EQ(iterator.current_bytecode(), Bytecode::kStar);
EXPECT_EQ(iterator.current_index(), 14);
EXPECT_EQ(iterator.current_offset(), offset);
EXPECT_EQ(iterator.current_operand_scale(), OperandScale::kSingle);
EXPECT_EQ(iterator.GetRegisterOperand(0).index(), reg_1.index());
EXPECT_EQ(iterator.GetRegisterOperandRange(0), 1);
ASSERT_TRUE(iterator.IsValid());
--iterator;
offset -= Bytecodes::Size(Bytecode::kAdd, OperandScale::kSingle);
EXPECT_EQ(iterator.current_bytecode(), Bytecode::kAdd);
EXPECT_EQ(iterator.current_index(), 13);
EXPECT_EQ(iterator.current_offset(), offset);
EXPECT_EQ(iterator.current_operand_scale(), OperandScale::kSingle);
EXPECT_EQ(iterator.GetRegisterOperand(0).index(), reg_0.index());
EXPECT_EQ(iterator.GetRegisterOperandRange(0), 1);
ASSERT_TRUE(iterator.IsValid());
--iterator;
offset -= Bytecodes::Size(Bytecode::kLdar, OperandScale::kSingle);
EXPECT_EQ(iterator.current_bytecode(), Bytecode::kLdar);
EXPECT_EQ(iterator.current_index(), 12);
EXPECT_EQ(iterator.current_offset(), offset);
EXPECT_EQ(iterator.current_operand_scale(), OperandScale::kSingle);
EXPECT_EQ(iterator.GetRegisterOperand(0).index(), reg_0.index());
ASSERT_TRUE(iterator.IsValid());
--iterator;
offset -= Bytecodes::Size(Bytecode::kStar, OperandScale::kSingle);
EXPECT_EQ(iterator.current_bytecode(), Bytecode::kStar);
EXPECT_EQ(iterator.current_index(), 11);
EXPECT_EQ(iterator.current_offset(), offset);
EXPECT_EQ(iterator.current_operand_scale(), OperandScale::kSingle);
EXPECT_EQ(iterator.GetRegisterOperand(0).index(), reg_1.index());
EXPECT_EQ(iterator.GetRegisterOperandRange(0), 1);
ASSERT_TRUE(iterator.IsValid());
--iterator;
offset -= Bytecodes::Size(Bytecode::kStackCheck, OperandScale::kSingle);
EXPECT_EQ(iterator.current_bytecode(), Bytecode::kStackCheck);
EXPECT_EQ(iterator.current_index(), 10);
EXPECT_EQ(iterator.current_offset(), offset);
EXPECT_EQ(iterator.current_operand_scale(), OperandScale::kSingle);
EXPECT_EQ(Bytecodes::NumberOfOperands(iterator.current_bytecode()), 0);
ASSERT_TRUE(iterator.IsValid());
--iterator;
offset -= Bytecodes::Size(Bytecode::kLdaSmi, OperandScale::kQuadruple) +
kPrefixByteSize;
EXPECT_EQ(iterator.current_bytecode(), Bytecode::kLdaSmi);
EXPECT_EQ(iterator.current_index(), 9);
EXPECT_EQ(iterator.current_offset(), offset);
EXPECT_EQ(iterator.current_operand_scale(), OperandScale::kQuadruple);
EXPECT_EQ(Smi::FromInt(iterator.GetImmediateOperand(0)), smi_1);
ASSERT_TRUE(iterator.IsValid());
--iterator;
offset -= Bytecodes::Size(Bytecode::kStar, OperandScale::kSingle);
EXPECT_EQ(iterator.current_bytecode(), Bytecode::kStar);
EXPECT_EQ(iterator.current_index(), 8);
EXPECT_EQ(iterator.current_offset(), offset);
EXPECT_EQ(iterator.current_operand_scale(), OperandScale::kSingle);
EXPECT_EQ(iterator.GetRegisterOperand(0).index(), reg_0.index());
EXPECT_EQ(iterator.GetRegisterOperandRange(0), 1);
ASSERT_TRUE(iterator.IsValid());
--iterator;
offset -= Bytecodes::Size(Bytecode::kStackCheck, OperandScale::kSingle);
EXPECT_EQ(iterator.current_bytecode(), Bytecode::kStackCheck);
EXPECT_EQ(iterator.current_index(), 7);
EXPECT_EQ(iterator.current_offset(), offset);
EXPECT_EQ(iterator.current_operand_scale(), OperandScale::kSingle);
EXPECT_EQ(Bytecodes::NumberOfOperands(iterator.current_bytecode()), 0);
ASSERT_TRUE(iterator.IsValid());
--iterator;
offset -= Bytecodes::Size(Bytecode::kLdaSmi, OperandScale::kSingle);
EXPECT_EQ(iterator.current_bytecode(), Bytecode::kLdaSmi);
EXPECT_EQ(iterator.current_index(), 6);
EXPECT_EQ(iterator.current_offset(), offset);
EXPECT_EQ(iterator.current_operand_scale(), OperandScale::kSingle);
EXPECT_EQ(Smi::FromInt(iterator.GetImmediateOperand(0)), smi_0);
ASSERT_TRUE(iterator.IsValid());
--iterator;
offset -= Bytecodes::Size(Bytecode::kStar, OperandScale::kSingle);
EXPECT_EQ(iterator.current_bytecode(), Bytecode::kStar);
EXPECT_EQ(iterator.current_index(), 5);
EXPECT_EQ(iterator.current_offset(), offset);
EXPECT_EQ(iterator.current_operand_scale(), OperandScale::kSingle);
EXPECT_EQ(iterator.GetRegisterOperand(0).index(), reg_0.index());
EXPECT_EQ(iterator.GetRegisterOperandRange(0), 1);
ASSERT_TRUE(iterator.IsValid());
--iterator;
offset -= Bytecodes::Size(Bytecode::kLdaZero, OperandScale::kSingle);
EXPECT_EQ(iterator.current_bytecode(), Bytecode::kLdaZero);
EXPECT_EQ(iterator.current_index(), 4);
EXPECT_EQ(iterator.current_offset(), offset);
EXPECT_EQ(iterator.current_operand_scale(), OperandScale::kSingle);
ASSERT_TRUE(iterator.IsValid());
--iterator;
offset -= Bytecodes::Size(Bytecode::kStar, OperandScale::kSingle);
EXPECT_EQ(iterator.current_bytecode(), Bytecode::kStar);
EXPECT_EQ(iterator.current_index(), 3);
EXPECT_EQ(iterator.current_offset(), offset);
EXPECT_EQ(iterator.current_operand_scale(), OperandScale::kSingle);
EXPECT_EQ(iterator.GetRegisterOperand(0).index(), reg_0.index());
EXPECT_EQ(iterator.GetRegisterOperandRange(0), 1);
ASSERT_TRUE(iterator.IsValid());
--iterator;
offset -= Bytecodes::Size(Bytecode::kLdaConstant, OperandScale::kSingle);
EXPECT_EQ(iterator.current_bytecode(), Bytecode::kLdaConstant);
EXPECT_EQ(iterator.current_index(), 2);
EXPECT_EQ(iterator.current_offset(), offset);
EXPECT_EQ(iterator.current_operand_scale(), OperandScale::kSingle);
EXPECT_TRUE(iterator.GetConstantForIndexOperand(0).is_identical_to(
heap_num_1->value()));
ASSERT_TRUE(iterator.IsValid());
--iterator;
offset -= Bytecodes::Size(Bytecode::kStar, OperandScale::kSingle);
EXPECT_EQ(iterator.current_bytecode(), Bytecode::kStar);
EXPECT_EQ(iterator.current_index(), 1);
EXPECT_EQ(iterator.current_offset(), offset);
EXPECT_EQ(iterator.current_operand_scale(), OperandScale::kSingle);
EXPECT_EQ(iterator.GetRegisterOperand(0).index(), reg_0.index());
EXPECT_EQ(iterator.GetRegisterOperandRange(0), 1);
ASSERT_TRUE(iterator.IsValid());
--iterator;
offset -= Bytecodes::Size(Bytecode::kLdaConstant, OperandScale::kSingle);
EXPECT_EQ(iterator.current_bytecode(), Bytecode::kLdaConstant);
EXPECT_EQ(iterator.current_index(), 0);
EXPECT_EQ(iterator.current_offset(), offset);
EXPECT_EQ(iterator.current_operand_scale(), OperandScale::kSingle);
EXPECT_TRUE(iterator.GetConstantForIndexOperand(0).is_identical_to(
heap_num_0->value()));
ASSERT_TRUE(iterator.IsValid());
--iterator;
ASSERT_FALSE(iterator.IsValid());
}
} // namespace interpreter
} // namespace internal
} // namespace v8