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v8/test/unittests/interpreter/bytecode-array-builder-unittest.cc
oth 8109f63fd5 [Interpreter] Add support for jumps using constants with wide operands. 
This increases the size of addressable constant pool entries for jumps
to match other bytecodes using operands indexing the constant pool.

This change also introduces reservations for constant pool entries.
Reservations are used for forward jumps to ensure a constant pool entry
will be available when the jump target (label) is bound and the jump is
patched up in the bytecode array.

BUG=v8:4280
LOG=N

Review URL: https://codereview.chromium.org/1546683002

Cr-Commit-Position: refs/heads/master@{#33125}
2016-01-05 19:09:10 +00:00

713 lines
25 KiB
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// Copyright 2014 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-iterator.h"
#include "test/unittests/test-utils.h"
namespace v8 {
namespace internal {
namespace interpreter {
class BytecodeArrayBuilderTest : public TestWithIsolateAndZone {
public:
BytecodeArrayBuilderTest() {}
~BytecodeArrayBuilderTest() override {}
};
TEST_F(BytecodeArrayBuilderTest, AllBytecodesGenerated) {
BytecodeArrayBuilder builder(isolate(), zone());
builder.set_locals_count(200);
builder.set_context_count(1);
builder.set_parameter_count(0);
CHECK_EQ(builder.locals_count(), 200);
CHECK_EQ(builder.context_count(), 1);
CHECK_EQ(builder.fixed_register_count(), 201);
// Emit constant loads.
builder.LoadLiteral(Smi::FromInt(0))
.LoadLiteral(Smi::FromInt(8))
.LoadLiteral(Smi::FromInt(10000000))
.LoadUndefined()
.LoadNull()
.LoadTheHole()
.LoadTrue()
.LoadFalse();
// Emit accumulator transfers. Stores followed by loads to the same register
// are not generated. Hence, a dummy instruction in between.
Register reg(0);
builder.LoadAccumulatorWithRegister(reg)
.LoadNull()
.StoreAccumulatorInRegister(reg);
// Emit register-register transfer.
Register other(1);
builder.MoveRegister(reg, other);
// Emit register-register exchanges.
Register wide(150);
builder.ExchangeRegisters(reg, wide);
builder.ExchangeRegisters(wide, reg);
Register wider(151);
builder.ExchangeRegisters(wide, wider);
// Emit global load / store operations.
Factory* factory = isolate()->factory();
Handle<String> name = factory->NewStringFromStaticChars("var_name");
builder.LoadGlobal(name, 1, LanguageMode::SLOPPY,
TypeofMode::NOT_INSIDE_TYPEOF)
.LoadGlobal(name, 1, LanguageMode::STRICT, TypeofMode::NOT_INSIDE_TYPEOF)
.LoadGlobal(name, 1, LanguageMode::SLOPPY, TypeofMode::INSIDE_TYPEOF)
.LoadGlobal(name, 1, LanguageMode::STRICT, TypeofMode::INSIDE_TYPEOF)
.StoreGlobal(name, 1, LanguageMode::SLOPPY)
.StoreGlobal(name, 1, LanguageMode::STRICT);
// Emit context operations.
builder.PushContext(reg);
builder.PopContext(reg);
builder.LoadContextSlot(reg, 1);
builder.StoreContextSlot(reg, 1);
// Emit load / store property operations.
builder.LoadNamedProperty(reg, name, 0, LanguageMode::SLOPPY)
.LoadKeyedProperty(reg, 0, LanguageMode::SLOPPY)
.StoreNamedProperty(reg, name, 0, LanguageMode::SLOPPY)
.StoreKeyedProperty(reg, reg, 0, LanguageMode::SLOPPY)
.LoadNamedProperty(reg, name, 0, LanguageMode::STRICT)
.LoadKeyedProperty(reg, 0, LanguageMode::STRICT)
.StoreNamedProperty(reg, name, 0, LanguageMode::STRICT)
.StoreKeyedProperty(reg, reg, 0, LanguageMode::STRICT);
// Emit load / store lookup slots.
builder.LoadLookupSlot(name, TypeofMode::NOT_INSIDE_TYPEOF)
.LoadLookupSlot(name, TypeofMode::INSIDE_TYPEOF)
.StoreLookupSlot(name, LanguageMode::SLOPPY)
.StoreLookupSlot(name, LanguageMode::STRICT);
// Emit closure operations.
Handle<SharedFunctionInfo> shared_info = factory->NewSharedFunctionInfo(
factory->NewStringFromStaticChars("function_a"), MaybeHandle<Code>(),
false);
builder.CreateClosure(shared_info, NOT_TENURED);
// Emit argument creation operations.
builder.CreateArguments(CreateArgumentsType::kMappedArguments)
.CreateArguments(CreateArgumentsType::kUnmappedArguments);
// Emit literal creation operations.
builder.CreateRegExpLiteral(factory->NewStringFromStaticChars("a"), 0, 0)
.CreateArrayLiteral(factory->NewFixedArray(1), 0, 0)
.CreateObjectLiteral(factory->NewFixedArray(1), 0, 0);
// Call operations.
builder.Call(reg, reg, 0, 0)
.Call(reg, reg, 0, 1024)
.CallRuntime(Runtime::kIsArray, reg, 1)
.CallJSRuntime(Context::SPREAD_ITERABLE_INDEX, reg, 1);
// Emit binary operator invocations.
builder.BinaryOperation(Token::Value::ADD, reg, Strength::WEAK)
.BinaryOperation(Token::Value::SUB, reg, Strength::WEAK)
.BinaryOperation(Token::Value::MUL, reg, Strength::WEAK)
.BinaryOperation(Token::Value::DIV, reg, Strength::WEAK)
.BinaryOperation(Token::Value::MOD, reg, Strength::WEAK);
// Emit bitwise operator invocations
builder.BinaryOperation(Token::Value::BIT_OR, reg, Strength::WEAK)
.BinaryOperation(Token::Value::BIT_XOR, reg, Strength::WEAK)
.BinaryOperation(Token::Value::BIT_AND, reg, Strength::WEAK);
// Emit shift operator invocations
builder.BinaryOperation(Token::Value::SHL, reg, Strength::WEAK)
.BinaryOperation(Token::Value::SAR, reg, Strength::WEAK)
.BinaryOperation(Token::Value::SHR, reg, Strength::WEAK);
// Emit count operatior invocations
builder.CountOperation(Token::Value::ADD, Strength::WEAK)
.CountOperation(Token::Value::SUB, Strength::WEAK);
// Emit unary operator invocations.
builder.LogicalNot().TypeOf();
// Emit delete
builder.Delete(reg, LanguageMode::SLOPPY)
.Delete(reg, LanguageMode::STRICT)
.DeleteLookupSlot();
// Emit new.
builder.New(reg, reg, 0);
// Emit test operator invocations.
builder.CompareOperation(Token::Value::EQ, reg, Strength::WEAK)
.CompareOperation(Token::Value::NE, reg, Strength::WEAK)
.CompareOperation(Token::Value::EQ_STRICT, reg, Strength::WEAK)
.CompareOperation(Token::Value::NE_STRICT, reg, Strength::WEAK)
.CompareOperation(Token::Value::LT, reg, Strength::WEAK)
.CompareOperation(Token::Value::GT, reg, Strength::WEAK)
.CompareOperation(Token::Value::LTE, reg, Strength::WEAK)
.CompareOperation(Token::Value::GTE, reg, Strength::WEAK)
.CompareOperation(Token::Value::INSTANCEOF, reg, Strength::WEAK)
.CompareOperation(Token::Value::IN, reg, Strength::WEAK);
// Emit cast operator invocations.
builder.CastAccumulatorToNumber()
.CastAccumulatorToJSObject()
.CastAccumulatorToName();
// Emit control flow. Return must be the last instruction.
BytecodeLabel start;
builder.Bind(&start);
// Short jumps with Imm8 operands
builder.Jump(&start)
.JumpIfNull(&start)
.JumpIfUndefined(&start);
// Perform an operation that returns boolean value to
// generate JumpIfTrue/False
builder.CompareOperation(Token::Value::EQ, reg, Strength::WEAK)
.JumpIfTrue(&start)
.CompareOperation(Token::Value::EQ, reg, Strength::WEAK)
.JumpIfFalse(&start);
// Perform an operation that returns a non-boolean operation to
// generate JumpIfToBooleanTrue/False.
builder.BinaryOperation(Token::Value::ADD, reg, Strength::WEAK)
.JumpIfTrue(&start)
.BinaryOperation(Token::Value::ADD, reg, Strength::WEAK)
.JumpIfFalse(&start);
// Insert dummy ops to force longer jumps
for (int i = 0; i < 128; i++) {
builder.LoadTrue();
}
// Longer jumps requiring Constant operand
builder.Jump(&start)
.JumpIfNull(&start)
.JumpIfUndefined(&start);
// Perform an operation that returns boolean value to
// generate JumpIfTrue/False
builder.CompareOperation(Token::Value::EQ, reg, Strength::WEAK)
.JumpIfTrue(&start)
.CompareOperation(Token::Value::EQ, reg, Strength::WEAK)
.JumpIfFalse(&start);
// Perform an operation that returns a non-boolean operation to
// generate JumpIfToBooleanTrue/False.
builder.BinaryOperation(Token::Value::ADD, reg, Strength::WEAK)
.JumpIfTrue(&start)
.BinaryOperation(Token::Value::ADD, reg, Strength::WEAK)
.JumpIfFalse(&start);
// Emit throw in it's own basic block so that the rest of the code isn't
// omitted due to being dead.
BytecodeLabel after_throw;
builder.Jump(&after_throw)
.Throw()
.Bind(&after_throw);
builder.ForInPrepare(reg, reg, reg)
.ForInDone(reg, reg)
.ForInNext(reg, reg, reg, reg)
.ForInStep(reg);
// Wide constant pool loads
for (int i = 0; i < 256; i++) {
// Emit junk in constant pool to force wide constant pool index.
builder.LoadLiteral(factory->NewNumber(2.5321 + i));
}
builder.LoadLiteral(Smi::FromInt(20000000));
Handle<String> wide_name = factory->NewStringFromStaticChars("var_wide_name");
// Emit wide global load / store operations.
builder.LoadGlobal(name, 1024, LanguageMode::SLOPPY,
TypeofMode::NOT_INSIDE_TYPEOF)
.LoadGlobal(wide_name, 1, LanguageMode::STRICT,
TypeofMode::NOT_INSIDE_TYPEOF)
.LoadGlobal(name, 1024, LanguageMode::SLOPPY, TypeofMode::INSIDE_TYPEOF)
.LoadGlobal(wide_name, 1, LanguageMode::STRICT, TypeofMode::INSIDE_TYPEOF)
.StoreGlobal(name, 1024, LanguageMode::SLOPPY)
.StoreGlobal(wide_name, 1, LanguageMode::STRICT);
// Emit wide load / store property operations.
builder.LoadNamedProperty(reg, wide_name, 0, LanguageMode::SLOPPY)
.LoadKeyedProperty(reg, 2056, LanguageMode::SLOPPY)
.StoreNamedProperty(reg, wide_name, 0, LanguageMode::SLOPPY)
.StoreKeyedProperty(reg, reg, 2056, LanguageMode::SLOPPY)
.LoadNamedProperty(reg, wide_name, 0, LanguageMode::STRICT)
.LoadKeyedProperty(reg, 2056, LanguageMode::STRICT)
.StoreNamedProperty(reg, wide_name, 0, LanguageMode::STRICT)
.StoreKeyedProperty(reg, reg, 2056, LanguageMode::STRICT);
// Emit wide load / store lookup slots.
builder.LoadLookupSlot(wide_name, TypeofMode::NOT_INSIDE_TYPEOF)
.LoadLookupSlot(wide_name, TypeofMode::INSIDE_TYPEOF)
.StoreLookupSlot(wide_name, LanguageMode::SLOPPY)
.StoreLookupSlot(wide_name, LanguageMode::STRICT);
// CreateClosureWide
Handle<SharedFunctionInfo> shared_info2 = factory->NewSharedFunctionInfo(
factory->NewStringFromStaticChars("function_b"), MaybeHandle<Code>(),
false);
builder.CreateClosure(shared_info2, NOT_TENURED);
// Emit wide variant of literal creation operations.
builder.CreateRegExpLiteral(factory->NewStringFromStaticChars("wide_literal"),
0, 0)
.CreateArrayLiteral(factory->NewFixedArray(2), 0, 0)
.CreateObjectLiteral(factory->NewFixedArray(2), 0, 0);
// Longer jumps requiring ConstantWide operand
builder.Jump(&start).JumpIfNull(&start).JumpIfUndefined(&start);
// Perform an operation that returns boolean value to
// generate JumpIfTrue/False
builder.CompareOperation(Token::Value::EQ, reg, Strength::WEAK)
.JumpIfTrue(&start)
.CompareOperation(Token::Value::EQ, reg, Strength::WEAK)
.JumpIfFalse(&start);
// Perform an operation that returns a non-boolean operation to
// generate JumpIfToBooleanTrue/False.
builder.BinaryOperation(Token::Value::ADD, reg, Strength::WEAK)
.JumpIfTrue(&start)
.BinaryOperation(Token::Value::ADD, reg, Strength::WEAK)
.JumpIfFalse(&start);
builder.Return();
// Generate BytecodeArray.
Handle<BytecodeArray> the_array = builder.ToBytecodeArray();
CHECK_EQ(the_array->frame_size(),
builder.fixed_register_count() * kPointerSize);
// Build scorecard of bytecodes encountered in the BytecodeArray.
std::vector<int> scorecard(Bytecodes::ToByte(Bytecode::kLast) + 1);
Bytecode final_bytecode = Bytecode::kLdaZero;
int i = 0;
while (i < the_array->length()) {
uint8_t code = the_array->get(i);
scorecard[code] += 1;
final_bytecode = Bytecodes::FromByte(code);
i += Bytecodes::Size(Bytecodes::FromByte(code));
}
// Check return occurs at the end and only once in the BytecodeArray.
CHECK_EQ(final_bytecode, Bytecode::kReturn);
CHECK_EQ(scorecard[Bytecodes::ToByte(final_bytecode)], 1);
#define CHECK_BYTECODE_PRESENT(Name, ...) \
/* Check Bytecode is marked in scorecard */ \
CHECK_GE(scorecard[Bytecodes::ToByte(Bytecode::k##Name)], 1);
BYTECODE_LIST(CHECK_BYTECODE_PRESENT)
#undef CHECK_BYTECODE_PRESENT
}
TEST_F(BytecodeArrayBuilderTest, FrameSizesLookGood) {
for (int locals = 0; locals < 5; locals++) {
for (int contexts = 0; contexts < 4; contexts++) {
for (int temps = 0; temps < 3; temps++) {
BytecodeArrayBuilder builder(isolate(), zone());
builder.set_parameter_count(0);
builder.set_locals_count(locals);
builder.set_context_count(contexts);
TemporaryRegisterScope temporaries(&builder);
for (int i = 0; i < temps; i++) {
builder.StoreAccumulatorInRegister(temporaries.NewRegister());
}
builder.Return();
Handle<BytecodeArray> the_array = builder.ToBytecodeArray();
int total_registers = locals + contexts + temps;
CHECK_EQ(the_array->frame_size(), total_registers * kPointerSize);
}
}
}
}
TEST_F(BytecodeArrayBuilderTest, TemporariesRecycled) {
BytecodeArrayBuilder builder(isolate(), zone());
builder.set_parameter_count(0);
builder.set_locals_count(0);
builder.set_context_count(0);
builder.Return();
int first;
{
TemporaryRegisterScope temporaries(&builder);
first = temporaries.NewRegister().index();
temporaries.NewRegister();
temporaries.NewRegister();
temporaries.NewRegister();
}
int second;
{
TemporaryRegisterScope temporaries(&builder);
second = temporaries.NewRegister().index();
}
CHECK_EQ(first, second);
}
TEST_F(BytecodeArrayBuilderTest, RegisterValues) {
int index = 1;
uint8_t operand = static_cast<uint8_t>(-index);
Register the_register(index);
CHECK_EQ(the_register.index(), index);
int actual_operand = the_register.ToOperand();
CHECK_EQ(actual_operand, operand);
int actual_index = Register::FromOperand(actual_operand).index();
CHECK_EQ(actual_index, index);
}
TEST_F(BytecodeArrayBuilderTest, Parameters) {
BytecodeArrayBuilder builder(isolate(), zone());
builder.set_parameter_count(10);
builder.set_locals_count(0);
builder.set_context_count(0);
Register param0(builder.Parameter(0));
Register param9(builder.Parameter(9));
CHECK_EQ(param9.index() - param0.index(), 9);
}
TEST_F(BytecodeArrayBuilderTest, RegisterType) {
BytecodeArrayBuilder builder(isolate(), zone());
builder.set_parameter_count(10);
builder.set_locals_count(3);
builder.set_context_count(0);
TemporaryRegisterScope temporary_register_scope(&builder);
Register temp0 = temporary_register_scope.NewRegister();
Register param0(builder.Parameter(0));
Register param9(builder.Parameter(9));
Register temp1 = temporary_register_scope.NewRegister();
Register reg0(0);
Register reg1(1);
Register reg2(2);
Register temp2 = temporary_register_scope.NewRegister();
CHECK_EQ(builder.RegisterIsParameterOrLocal(temp0), false);
CHECK_EQ(builder.RegisterIsParameterOrLocal(temp1), false);
CHECK_EQ(builder.RegisterIsParameterOrLocal(temp2), false);
CHECK_EQ(builder.RegisterIsParameterOrLocal(param0), true);
CHECK_EQ(builder.RegisterIsParameterOrLocal(param9), true);
CHECK_EQ(builder.RegisterIsParameterOrLocal(reg0), true);
CHECK_EQ(builder.RegisterIsParameterOrLocal(reg1), true);
CHECK_EQ(builder.RegisterIsParameterOrLocal(reg2), true);
}
TEST_F(BytecodeArrayBuilderTest, Constants) {
BytecodeArrayBuilder builder(isolate(), zone());
builder.set_parameter_count(0);
builder.set_locals_count(0);
builder.set_context_count(0);
Factory* factory = isolate()->factory();
Handle<HeapObject> heap_num_1 = factory->NewHeapNumber(3.14);
Handle<HeapObject> heap_num_2 = factory->NewHeapNumber(5.2);
Handle<Object> large_smi(Smi::FromInt(0x12345678), isolate());
Handle<HeapObject> heap_num_2_copy(*heap_num_2);
builder.LoadLiteral(heap_num_1)
.LoadLiteral(heap_num_2)
.LoadLiteral(large_smi)
.LoadLiteral(heap_num_1)
.LoadLiteral(heap_num_1)
.LoadLiteral(heap_num_2_copy);
Handle<BytecodeArray> array = builder.ToBytecodeArray();
// Should only have one entry for each identical constant.
CHECK_EQ(array->constant_pool()->length(), 3);
}
TEST_F(BytecodeArrayBuilderTest, ForwardJumps) {
static const int kFarJumpDistance = 256;
BytecodeArrayBuilder builder(isolate(), zone());
builder.set_parameter_count(0);
builder.set_locals_count(1);
builder.set_context_count(0);
Register reg(0);
BytecodeLabel far0, far1, far2, far3, far4;
BytecodeLabel near0, near1, near2, near3, near4;
builder.Jump(&near0)
.CompareOperation(Token::Value::EQ, reg, Strength::WEAK)
.JumpIfTrue(&near1)
.CompareOperation(Token::Value::EQ, reg, Strength::WEAK)
.JumpIfFalse(&near2)
.BinaryOperation(Token::Value::ADD, reg, Strength::WEAK)
.JumpIfTrue(&near3)
.BinaryOperation(Token::Value::ADD, reg, Strength::WEAK)
.JumpIfFalse(&near4)
.Bind(&near0)
.Bind(&near1)
.Bind(&near2)
.Bind(&near3)
.Bind(&near4)
.Jump(&far0)
.CompareOperation(Token::Value::EQ, reg, Strength::WEAK)
.JumpIfTrue(&far1)
.CompareOperation(Token::Value::EQ, reg, Strength::WEAK)
.JumpIfFalse(&far2)
.BinaryOperation(Token::Value::ADD, reg, Strength::WEAK)
.JumpIfTrue(&far3)
.BinaryOperation(Token::Value::ADD, reg, Strength::WEAK)
.JumpIfFalse(&far4);
for (int i = 0; i < kFarJumpDistance - 18; i++) {
builder.LoadUndefined();
}
builder.Bind(&far0).Bind(&far1).Bind(&far2).Bind(&far3).Bind(&far4);
builder.Return();
Handle<BytecodeArray> array = builder.ToBytecodeArray();
DCHECK_EQ(array->length(), 36 + kFarJumpDistance - 18 + 1);
BytecodeArrayIterator iterator(array);
CHECK_EQ(iterator.current_bytecode(), Bytecode::kJump);
CHECK_EQ(iterator.GetImmediateOperand(0), 18);
iterator.Advance();
// Ignore compare operation.
iterator.Advance();
CHECK_EQ(iterator.current_bytecode(), Bytecode::kJumpIfTrue);
CHECK_EQ(iterator.GetImmediateOperand(0), 14);
iterator.Advance();
// Ignore compare operation.
iterator.Advance();
CHECK_EQ(iterator.current_bytecode(), Bytecode::kJumpIfFalse);
CHECK_EQ(iterator.GetImmediateOperand(0), 10);
iterator.Advance();
// Ignore add operation.
iterator.Advance();
CHECK_EQ(iterator.current_bytecode(), Bytecode::kJumpIfToBooleanTrue);
CHECK_EQ(iterator.GetImmediateOperand(0), 6);
iterator.Advance();
// Ignore add operation.
iterator.Advance();
CHECK_EQ(iterator.current_bytecode(), Bytecode::kJumpIfToBooleanFalse);
CHECK_EQ(iterator.GetImmediateOperand(0), 2);
iterator.Advance();
CHECK_EQ(iterator.current_bytecode(), Bytecode::kJumpConstant);
CHECK_EQ(*iterator.GetConstantForIndexOperand(0),
Smi::FromInt(kFarJumpDistance));
iterator.Advance();
// Ignore compare operation.
iterator.Advance();
CHECK_EQ(iterator.current_bytecode(), Bytecode::kJumpIfTrueConstant);
CHECK_EQ(*iterator.GetConstantForIndexOperand(0),
Smi::FromInt(kFarJumpDistance - 4));
iterator.Advance();
// Ignore compare operation.
iterator.Advance();
CHECK_EQ(iterator.current_bytecode(), Bytecode::kJumpIfFalseConstant);
CHECK_EQ(*iterator.GetConstantForIndexOperand(0),
Smi::FromInt(kFarJumpDistance - 8));
iterator.Advance();
// Ignore add operation.
iterator.Advance();
CHECK_EQ(iterator.current_bytecode(), Bytecode::kJumpIfToBooleanTrueConstant);
CHECK_EQ(*iterator.GetConstantForIndexOperand(0),
Smi::FromInt(kFarJumpDistance - 12));
iterator.Advance();
// Ignore add operation.
iterator.Advance();
CHECK_EQ(iterator.current_bytecode(),
Bytecode::kJumpIfToBooleanFalseConstant);
CHECK_EQ(*iterator.GetConstantForIndexOperand(0),
Smi::FromInt(kFarJumpDistance - 16));
iterator.Advance();
}
TEST_F(BytecodeArrayBuilderTest, BackwardJumps) {
BytecodeArrayBuilder builder(isolate(), zone());
builder.set_parameter_count(0);
builder.set_locals_count(1);
builder.set_context_count(0);
Register reg(0);
BytecodeLabel label0, label1, label2, label3, label4;
builder.Bind(&label0)
.Jump(&label0)
.Bind(&label1)
.CompareOperation(Token::Value::EQ, reg, Strength::WEAK)
.JumpIfTrue(&label1)
.Bind(&label2)
.CompareOperation(Token::Value::EQ, reg, Strength::WEAK)
.JumpIfFalse(&label2)
.Bind(&label3)
.BinaryOperation(Token::Value::ADD, reg, Strength::WEAK)
.JumpIfTrue(&label3)
.Bind(&label4)
.BinaryOperation(Token::Value::ADD, reg, Strength::WEAK)
.JumpIfFalse(&label4);
for (int i = 0; i < 63; i++) {
builder.Jump(&label4);
}
builder.BinaryOperation(Token::Value::ADD, reg, Strength::WEAK)
.JumpIfFalse(&label4);
builder.BinaryOperation(Token::Value::ADD, reg, Strength::WEAK)
.JumpIfTrue(&label3);
builder.CompareOperation(Token::Value::EQ, reg, Strength::WEAK)
.JumpIfFalse(&label2);
builder.CompareOperation(Token::Value::EQ, reg, Strength::WEAK)
.JumpIfTrue(&label1);
builder.Jump(&label0);
builder.Return();
Handle<BytecodeArray> array = builder.ToBytecodeArray();
BytecodeArrayIterator iterator(array);
CHECK_EQ(iterator.current_bytecode(), Bytecode::kJump);
CHECK_EQ(iterator.GetImmediateOperand(0), 0);
iterator.Advance();
// Ignore compare operation.
iterator.Advance();
CHECK_EQ(iterator.current_bytecode(), Bytecode::kJumpIfTrue);
CHECK_EQ(iterator.GetImmediateOperand(0), -2);
iterator.Advance();
// Ignore compare operation.
iterator.Advance();
CHECK_EQ(iterator.current_bytecode(), Bytecode::kJumpIfFalse);
CHECK_EQ(iterator.GetImmediateOperand(0), -2);
iterator.Advance();
// Ignore binary operation.
iterator.Advance();
CHECK_EQ(iterator.current_bytecode(), Bytecode::kJumpIfToBooleanTrue);
CHECK_EQ(iterator.GetImmediateOperand(0), -2);
iterator.Advance();
// Ignore binary operation.
iterator.Advance();
CHECK_EQ(iterator.current_bytecode(), Bytecode::kJumpIfToBooleanFalse);
CHECK_EQ(iterator.GetImmediateOperand(0), -2);
iterator.Advance();
for (int i = 0; i < 63; i++) {
CHECK_EQ(iterator.current_bytecode(), Bytecode::kJump);
CHECK_EQ(iterator.GetImmediateOperand(0), -i * 2 - 4);
iterator.Advance();
}
// Ignore binary operation.
iterator.Advance();
CHECK_EQ(iterator.current_bytecode(),
Bytecode::kJumpIfToBooleanFalseConstant);
CHECK_EQ(Smi::cast(*iterator.GetConstantForIndexOperand(0))->value(), -132);
iterator.Advance();
// Ignore binary operation.
iterator.Advance();
CHECK_EQ(iterator.current_bytecode(), Bytecode::kJumpIfToBooleanTrueConstant);
CHECK_EQ(Smi::cast(*iterator.GetConstantForIndexOperand(0))->value(), -140);
iterator.Advance();
// Ignore compare operation.
iterator.Advance();
CHECK_EQ(iterator.current_bytecode(), Bytecode::kJumpIfFalseConstant);
CHECK_EQ(Smi::cast(*iterator.GetConstantForIndexOperand(0))->value(), -148);
iterator.Advance();
// Ignore compare operation.
iterator.Advance();
CHECK_EQ(iterator.current_bytecode(), Bytecode::kJumpIfTrueConstant);
CHECK_EQ(Smi::cast(*iterator.GetConstantForIndexOperand(0))->value(), -156);
iterator.Advance();
CHECK_EQ(iterator.current_bytecode(), Bytecode::kJumpConstant);
CHECK_EQ(Smi::cast(*iterator.GetConstantForIndexOperand(0))->value(), -160);
iterator.Advance();
CHECK_EQ(iterator.current_bytecode(), Bytecode::kReturn);
iterator.Advance();
CHECK(iterator.done());
}
TEST_F(BytecodeArrayBuilderTest, LabelReuse) {
BytecodeArrayBuilder builder(isolate(), zone());
builder.set_parameter_count(0);
builder.set_locals_count(0);
builder.set_context_count(0);
// Labels can only have 1 forward reference, but
// can be referred to mulitple times once bound.
BytecodeLabel label;
builder.Jump(&label).Bind(&label).Jump(&label).Jump(&label).Return();
Handle<BytecodeArray> array = builder.ToBytecodeArray();
BytecodeArrayIterator iterator(array);
CHECK_EQ(iterator.current_bytecode(), Bytecode::kJump);
CHECK_EQ(iterator.GetImmediateOperand(0), 2);
iterator.Advance();
CHECK_EQ(iterator.current_bytecode(), Bytecode::kJump);
CHECK_EQ(iterator.GetImmediateOperand(0), 0);
iterator.Advance();
CHECK_EQ(iterator.current_bytecode(), Bytecode::kJump);
CHECK_EQ(iterator.GetImmediateOperand(0), -2);
iterator.Advance();
CHECK_EQ(iterator.current_bytecode(), Bytecode::kReturn);
iterator.Advance();
CHECK(iterator.done());
}
TEST_F(BytecodeArrayBuilderTest, LabelAddressReuse) {
static const int kRepeats = 3;
BytecodeArrayBuilder builder(isolate(), zone());
builder.set_parameter_count(0);
builder.set_locals_count(0);
builder.set_context_count(0);
for (int i = 0; i < kRepeats; i++) {
BytecodeLabel label;
builder.Jump(&label).Bind(&label).Jump(&label).Jump(&label);
}
builder.Return();
Handle<BytecodeArray> array = builder.ToBytecodeArray();
BytecodeArrayIterator iterator(array);
for (int i = 0; i < kRepeats; i++) {
CHECK_EQ(iterator.current_bytecode(), Bytecode::kJump);
CHECK_EQ(iterator.GetImmediateOperand(0), 2);
iterator.Advance();
CHECK_EQ(iterator.current_bytecode(), Bytecode::kJump);
CHECK_EQ(iterator.GetImmediateOperand(0), 0);
iterator.Advance();
CHECK_EQ(iterator.current_bytecode(), Bytecode::kJump);
CHECK_EQ(iterator.GetImmediateOperand(0), -2);
iterator.Advance();
}
CHECK_EQ(iterator.current_bytecode(), Bytecode::kReturn);
iterator.Advance();
CHECK(iterator.done());
}
} // namespace interpreter
} // namespace internal
} // namespace v8
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