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chromium / v8 / v8 / 40f8605ff987031b2dc104c71f5f89754281cd29 / . / test / cctest / interpreter / test-bytecode-generator.cc
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// 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/compiler.h"
#include "src/interpreter/bytecode-array-iterator.h"
#include "src/interpreter/bytecode-generator.h"
#include "src/interpreter/interpreter.h"
#include "test/cctest/cctest.h"
#include "test/cctest/test-feedback-vector.h"
namespace v8 {
namespace internal {
namespace interpreter {
class BytecodeGeneratorHelper {
public:
const char* kFunctionName = "f";
static const int kLastParamIndex =
-InterpreterFrameConstants::kLastParamFromRegisterPointer / kPointerSize;
BytecodeGeneratorHelper() {
i::FLAG_vector_stores = true;
i::FLAG_ignition = true;
i::FLAG_ignition_fake_try_catch = true;
i::FLAG_ignition_filter = StrDup(kFunctionName);
i::FLAG_always_opt = false;
i::FLAG_allow_natives_syntax = true;
CcTest::i_isolate()->interpreter()->Initialize();
}
Isolate* isolate() { return CcTest::i_isolate(); }
Factory* factory() { return CcTest::i_isolate()->factory(); }
Handle<BytecodeArray> MakeTopLevelBytecode(const char* source) {
const char* old_ignition_filter = i::FLAG_ignition_filter;
i::FLAG_ignition_filter = "*";
Local<v8::Script> script = v8_compile(source);
i::FLAG_ignition_filter = old_ignition_filter;
i::Handle<i::JSFunction> js_function = v8::Utils::OpenHandle(*script);
return handle(js_function->shared()->bytecode_array(), CcTest::i_isolate());
}
Handle<BytecodeArray> MakeBytecode(const char* script,
const char* function_name) {
CompileRun(script);
Local<Function> function =
Local<Function>::Cast(CcTest::global()->Get(v8_str(function_name)));
i::Handle<i::JSFunction> js_function =
i::Handle<i::JSFunction>::cast(v8::Utils::OpenHandle(*function));
return handle(js_function->shared()->bytecode_array(), CcTest::i_isolate());
}
Handle<BytecodeArray> MakeBytecodeForFunctionBody(const char* body) {
ScopedVector<char> program(3072);
SNPrintF(program, "function %s() { %s }\n%s();", kFunctionName, body,
kFunctionName);
return MakeBytecode(program.start(), kFunctionName);
}
Handle<BytecodeArray> MakeBytecodeForFunction(const char* function) {
ScopedVector<char> program(3072);
SNPrintF(program, "%s\n%s();", function, kFunctionName);
return MakeBytecode(program.start(), kFunctionName);
}
Handle<BytecodeArray> MakeBytecodeForFunctionNoFilter(const char* function) {
const char* old_ignition_filter = i::FLAG_ignition_filter;
i::FLAG_ignition_filter = "*";
ScopedVector<char> program(3072);
SNPrintF(program, "%s\n%s();", function, kFunctionName);
Handle<BytecodeArray> return_val =
MakeBytecode(program.start(), kFunctionName);
i::FLAG_ignition_filter = old_ignition_filter;
return return_val;
}
};
// Helper macros for handcrafting bytecode sequences.
#define B(x) static_cast<uint8_t>(Bytecode::k##x)
#define U8(x) static_cast<uint8_t>((x) & 0xff)
#define R(x) static_cast<uint8_t>(-(x) & 0xff)
#define A(x, n) R(helper.kLastParamIndex - (n) + 1 + (x))
#define THIS(n) A(0, n)
#if defined(V8_TARGET_LITTLE_ENDIAN)
#define U16(x) static_cast<uint8_t>((x) & 0xff), \
static_cast<uint8_t>(((x) >> kBitsPerByte) & 0xff)
#elif defined(V8_TARGET_BIG_ENDIAN)
#define U16(x) static_cast<uint8_t>(((x) >> kBitsPerByte) & 0xff), \
static_cast<uint8_t>((x) & 0xff)
#else
#error Unknown byte ordering
#endif
#define COMMA() ,
#define SPACE()
#define REPEAT_2(SEP, ...) \
__VA_ARGS__ SEP() __VA_ARGS__
#define REPEAT_4(SEP, ...) \
REPEAT_2(SEP, __VA_ARGS__) SEP() REPEAT_2(SEP, __VA_ARGS__)
#define REPEAT_8(SEP, ...) \
REPEAT_4(SEP, __VA_ARGS__) SEP() REPEAT_4(SEP, __VA_ARGS__)
#define REPEAT_16(SEP, ...) \
REPEAT_8(SEP, __VA_ARGS__) SEP() REPEAT_8(SEP, __VA_ARGS__)
#define REPEAT_32(SEP, ...) \
REPEAT_16(SEP, __VA_ARGS__) SEP() REPEAT_16(SEP, __VA_ARGS__)
#define REPEAT_64(SEP, ...) \
REPEAT_32(SEP, __VA_ARGS__) SEP() REPEAT_32(SEP, __VA_ARGS__)
#define REPEAT_128(SEP, ...) \
REPEAT_64(SEP, __VA_ARGS__) SEP() REPEAT_64(SEP, __VA_ARGS__)
#define REPEAT_256(SEP, ...) \
REPEAT_128(SEP, __VA_ARGS__) SEP() REPEAT_128(SEP, __VA_ARGS__)
#define REPEAT_127(SEP, ...) \
REPEAT_64(SEP, __VA_ARGS__) SEP() REPEAT_32(SEP, __VA_ARGS__) SEP() \
REPEAT_16(SEP, __VA_ARGS__) SEP() REPEAT_8(SEP, __VA_ARGS__) SEP() \
REPEAT_4(SEP, __VA_ARGS__) SEP() REPEAT_2(SEP, __VA_ARGS__) SEP() \
__VA_ARGS__
// Structure for containing expected bytecode snippets.
template<typename T, int C = 6>
struct ExpectedSnippet {
const char* code_snippet;
int frame_size;
int parameter_count;
int bytecode_length;
const uint8_t bytecode[2048];
int constant_count;
T constants[C];
};
static void CheckConstant(int expected, Object* actual) {
CHECK_EQ(expected, Smi::cast(actual)->value());
}
static void CheckConstant(double expected, Object* actual) {
CHECK_EQ(expected, HeapNumber::cast(actual)->value());
}
static void CheckConstant(const char* expected, Object* actual) {
Handle<String> expected_string =
CcTest::i_isolate()->factory()->NewStringFromAsciiChecked(expected);
CHECK(String::cast(actual)->Equals(*expected_string));
}
static void CheckConstant(Handle<Object> expected, Object* actual) {
CHECK(actual == *expected || expected->StrictEquals(actual));
}
static void CheckConstant(InstanceType expected, Object* actual) {
CHECK_EQ(expected, HeapObject::cast(actual)->map()->instance_type());
}
template <typename T, int C>
static void CheckBytecodeArrayEqual(const ExpectedSnippet<T, C>& expected,
Handle<BytecodeArray> actual) {
CHECK_EQ(expected.frame_size, actual->frame_size());
CHECK_EQ(expected.parameter_count, actual->parameter_count());
CHECK_EQ(expected.bytecode_length, actual->length());
if (expected.constant_count == 0) {
CHECK_EQ(CcTest::heap()->empty_fixed_array(), actual->constant_pool());
} else {
CHECK_EQ(expected.constant_count, actual->constant_pool()->length());
for (int i = 0; i < expected.constant_count; i++) {
CheckConstant(expected.constants[i], actual->constant_pool()->get(i));
}
}
BytecodeArrayIterator iterator(actual);
int i = 0;
while (!iterator.done()) {
int bytecode_index = i++;
Bytecode bytecode = iterator.current_bytecode();
if (Bytecodes::ToByte(bytecode) != expected.bytecode[bytecode_index]) {
std::ostringstream stream;
stream << "Check failed: expected bytecode [" << bytecode_index
<< "] to be " << Bytecodes::ToString(static_cast<Bytecode>(
expected.bytecode[bytecode_index]))
<< " but got " << Bytecodes::ToString(bytecode);
FATAL(stream.str().c_str());
}
for (int j = 0; j < Bytecodes::NumberOfOperands(bytecode); ++j) {
OperandType operand_type = Bytecodes::GetOperandType(bytecode, j);
int operand_index = i;
i += static_cast<int>(Bytecodes::SizeOfOperand(operand_type));
uint32_t raw_operand = iterator.GetRawOperand(j, operand_type);
uint32_t expected_operand;
switch (Bytecodes::SizeOfOperand(operand_type)) {
case OperandSize::kNone:
UNREACHABLE();
return;
case OperandSize::kByte:
expected_operand =
static_cast<uint32_t>(expected.bytecode[operand_index]);
break;
case OperandSize::kShort:
expected_operand = Bytecodes::ShortOperandFromBytes(
&expected.bytecode[operand_index]);
break;
default:
UNREACHABLE();
return;
}
if (raw_operand != expected_operand) {
std::ostringstream stream;
stream << "Check failed: expected operand [" << j << "] for bytecode ["
<< bytecode_index << "] to be "
<< static_cast<unsigned int>(expected_operand) << " but got "
<< static_cast<unsigned int>(raw_operand);
FATAL(stream.str().c_str());
}
}
iterator.Advance();
}
}
TEST(PrimitiveReturnStatements) {
InitializedHandleScope handle_scope;
BytecodeGeneratorHelper helper;
ExpectedSnippet<int> snippets[] = {
{"", 0, 1, 2, {B(LdaUndefined), B(Return)}, 0},
{"return;", 0, 1, 2, {B(LdaUndefined), B(Return)}, 0},
{"return null;", 0, 1, 2, {B(LdaNull), B(Return)}, 0},
{"return true;", 0, 1, 2, {B(LdaTrue), B(Return)}, 0},
{"return false;", 0, 1, 2, {B(LdaFalse), B(Return)}, 0},
{"return 0;", 0, 1, 2, {B(LdaZero), B(Return)}, 0},
{"return +1;", 0, 1, 3, {B(LdaSmi8), U8(1), B(Return)}, 0},
{"return -1;", 0, 1, 3, {B(LdaSmi8), U8(-1), B(Return)}, 0},
{"return +127;", 0, 1, 3, {B(LdaSmi8), U8(127), B(Return)}, 0},
{"return -128;", 0, 1, 3, {B(LdaSmi8), U8(-128), B(Return)}, 0},
};
for (size_t i = 0; i < arraysize(snippets); i++) {
Handle<BytecodeArray> bytecode_array =
helper.MakeBytecodeForFunctionBody(snippets[i].code_snippet);
CheckBytecodeArrayEqual(snippets[i], bytecode_array);
}
}
TEST(PrimitiveExpressions) {
InitializedHandleScope handle_scope;
BytecodeGeneratorHelper helper;
ExpectedSnippet<int> snippets[] = {
{"var x = 0; return x;",
kPointerSize,
1,
6,
{B(LdaZero), //
B(Star), R(0), //
B(Ldar), R(0), //
B(Return)},
0},
{"var x = 0; return x + 3;",
kPointerSize,
1,
8,
{B(LdaZero), //
B(Star), R(0), //
B(LdaSmi8), U8(3), //
B(Add), R(0), //
B(Return)},
0},
{"var x = 0; return x - 3;",
kPointerSize,
1,
8,
{B(LdaZero), //
B(Star), R(0), //
B(LdaSmi8), U8(3), //
B(Sub), R(0), //
B(Return)},
0},
{"var x = 4; return x * 3;",
kPointerSize,
1,
9,
{B(LdaSmi8), U8(4), //
B(Star), R(0), //
B(LdaSmi8), U8(3), //
B(Mul), R(0), //
B(Return)},
0},
{"var x = 4; return x / 3;",
kPointerSize,
1,
9,
{B(LdaSmi8), U8(4), //
B(Star), R(0), //
B(LdaSmi8), U8(3), //
B(Div), R(0), //
B(Return)},
0},
{"var x = 4; return x % 3;",
kPointerSize,
1,
9,
{B(LdaSmi8), U8(4), //
B(Star), R(0), //
B(LdaSmi8), U8(3), //
B(Mod), R(0), //
B(Return)},
0},
{"var x = 1; return x | 2;",
kPointerSize,
1,
9,
{B(LdaSmi8), U8(1), //
B(Star), R(0), //
B(LdaSmi8), U8(2), //
B(BitwiseOr), R(0), //
B(Return)},
0},
{"var x = 1; return x ^ 2;",
kPointerSize,
1,
9,
{B(LdaSmi8), U8(1), //
B(Star), R(0), //
B(LdaSmi8), U8(2), //
B(BitwiseXor), R(0), //
B(Return)},
0},
{"var x = 1; return x & 2;",
kPointerSize,
1,
9,
{B(LdaSmi8), U8(1), //
B(Star), R(0), //
B(LdaSmi8), U8(2), //
B(BitwiseAnd), R(0), //
B(Return)},
0},
{"var x = 10; return x << 3;",
kPointerSize,
1,
9,
{B(LdaSmi8), U8(10), //
B(Star), R(0), //
B(LdaSmi8), U8(3), //
B(ShiftLeft), R(0), //
B(Return)},
0},
{"var x = 10; return x >> 3;",
kPointerSize,
1,
9,
{B(LdaSmi8), U8(10), //
B(Star), R(0), //
B(LdaSmi8), U8(3), //
B(ShiftRight), R(0), //
B(Return)},
0},
{"var x = 10; return x >>> 3;",
kPointerSize,
1,
9,
{B(LdaSmi8), U8(10), //
B(Star), R(0), //
B(LdaSmi8), U8(3), //
B(ShiftRightLogical), R(0), //
B(Return)},
0},
{"var x = 0; return (x, 3);",
kPointerSize,
1,
6,
{B(LdaZero), //
B(Star), R(0), //
B(LdaSmi8), U8(3), //
B(Return)},
0}};
for (size_t i = 0; i < arraysize(snippets); i++) {
Handle<BytecodeArray> bytecode_array =
helper.MakeBytecodeForFunctionBody(snippets[i].code_snippet);
CheckBytecodeArrayEqual(snippets[i], bytecode_array);
}
}
TEST(LogicalExpressions) {
InitializedHandleScope handle_scope;
BytecodeGeneratorHelper helper;
ExpectedSnippet<int> snippets[] = {
{"var x = 0; return x || 3;",
1 * kPointerSize,
1,
10,
{B(LdaZero), //
B(Star), R(0), //
B(Ldar), R(0), //
B(JumpIfToBooleanTrue), U8(4), //
B(LdaSmi8), U8(3), //
B(Return)},
0},
{"var x = 0; return x && 3;",
1 * kPointerSize,
1,
10,
{B(LdaZero), //
B(Star), R(0), //
B(Ldar), R(0), //
B(JumpIfToBooleanFalse), U8(4), //
B(LdaSmi8), U8(3), //
B(Return)},
0},
{"var x = 0; return x || (1, 2, 3);",
1 * kPointerSize,
1,
10,
{B(LdaZero), //
B(Star), R(0), //
B(Ldar), R(0), //
B(JumpIfToBooleanTrue), U8(4), //
B(LdaSmi8), U8(3), //
B(Return)},
0},
{"var a = 2, b = 3, c = 4; return a || (a, b, a, b, c = 5, 3);",
3 * kPointerSize,
1,
23,
{B(LdaSmi8), U8(2), //
B(Star), R(0), //
B(LdaSmi8), U8(3), //
B(Star), R(1), //
B(LdaSmi8), U8(4), //
B(Star), R(2), //
B(Ldar), R(0), //
B(JumpIfToBooleanTrue), U8(8), //
B(LdaSmi8), U8(5), //
B(Star), R(2), //
B(LdaSmi8), U8(3), //
B(Return)},
0},
{"var x = 1; var a = 2, b = 3; return x || ("
REPEAT_32(SPACE, "a = 1, b = 2, ")
"3);",
3 * kPointerSize,
1,
275,
{B(LdaSmi8), U8(1), //
B(Star), R(0), //
B(LdaSmi8), U8(2), //
B(Star), R(1), //
B(LdaSmi8), U8(3), //
B(Star), R(2), //
B(Ldar), R(0), //
B(JumpIfToBooleanTrueConstant), U8(0), //
REPEAT_32(COMMA, //
B(LdaSmi8), U8(1), //
B(Star), R(1), //
B(LdaSmi8), U8(2), //
B(Star), R(2)), //
B(LdaSmi8), U8(3), //
B(Return)},
1,
{260, 0, 0, 0}},
{"var x = 0; var a = 2, b = 3; return x && ("
REPEAT_32(SPACE, "a = 1, b = 2, ")
"3);",
3 * kPointerSize,
1,
274,
{B(LdaZero), //
B(Star), R(0), //
B(LdaSmi8), U8(2), //
B(Star), R(1), //
B(LdaSmi8), U8(3), //
B(Star), R(2), //
B(Ldar), R(0), //
B(JumpIfToBooleanFalseConstant), U8(0), //
REPEAT_32(COMMA, //
B(LdaSmi8), U8(1), //
B(Star), R(1), //
B(LdaSmi8), U8(2), //
B(Star), R(2)), //
B(LdaSmi8), U8(3), //
B(Return)}, //
1,
{260, 0, 0, 0}},
{"return 0 && 3;",
0 * kPointerSize,
1,
2,
{B(LdaZero), //
B(Return)},
0},
{"return 1 || 3;",
0 * kPointerSize,
1,
3,
{B(LdaSmi8), U8(1), //
B(Return)},
0},
{"var x = 1; return x && 3 || 0, 1;",
1 * kPointerSize,
1,
16,
{B(LdaSmi8), U8(1), //
B(Star), R(0), //
B(Ldar), R(0), //
B(JumpIfToBooleanFalse), U8(4), //
B(LdaSmi8), U8(3), //
B(JumpIfToBooleanTrue), U8(3), //
B(LdaZero), //
B(LdaSmi8), U8(1), //
B(Return)},
0}};
for (size_t i = 0; i < arraysize(snippets); i++) {
Handle<BytecodeArray> bytecode_array =
helper.MakeBytecodeForFunctionBody(snippets[i].code_snippet);
CheckBytecodeArrayEqual(snippets[i], bytecode_array);
}
}
TEST(Parameters) {
InitializedHandleScope handle_scope;
BytecodeGeneratorHelper helper;
ExpectedSnippet<int> snippets[] = {
{"function f() { return this; }",
0,
1,
3,
{B(Ldar), THIS(1), B(Return)},
0},
{"function f(arg1) { return arg1; }",
0,
2,
3,
{B(Ldar), A(1, 2), B(Return)},
0},
{"function f(arg1) { return this; }",
0,
2,
3,
{B(Ldar), THIS(2), B(Return)},
0},
{"function f(arg1, arg2, arg3, arg4, arg5, arg6, arg7) { return arg4; }",
0,
8,
3,
{B(Ldar), A(4, 8), B(Return)},
0},
{"function f(arg1, arg2, arg3, arg4, arg5, arg6, arg7) { return this; }",
0,
8,
3,
{B(Ldar), THIS(8), B(Return)},
0},
{"function f(arg1) { arg1 = 1; }",
0,
2,
6,
{B(LdaSmi8), U8(1), //
B(Star), A(1, 2), //
B(LdaUndefined), //
B(Return)},
0},
{"function f(arg1, arg2, arg3, arg4) { arg2 = 1; }",
0,
5,
6,
{B(LdaSmi8), U8(1), //
B(Star), A(2, 5), //
B(LdaUndefined), //
B(Return)},
0},
};
for (size_t i = 0; i < arraysize(snippets); i++) {
Handle<BytecodeArray> bytecode_array =
helper.MakeBytecodeForFunction(snippets[i].code_snippet);
CheckBytecodeArrayEqual(snippets[i], bytecode_array);
}
}
TEST(IntegerConstants) {
InitializedHandleScope handle_scope;
BytecodeGeneratorHelper helper;
ExpectedSnippet<int> snippets[] = {
{"return 12345678;",
0,
1,
3,
{
B(LdaConstant), U8(0), //
B(Return) //
},
1,
{12345678}},
{"var a = 1234; return 5678;",
1 * kPointerSize,
1,
7,
{
B(LdaConstant), U8(0), //
B(Star), R(0), //
B(LdaConstant), U8(1), //
B(Return) //
},
2,
{1234, 5678}},
{"var a = 1234; return 1234;",
1 * kPointerSize,
1,
7,
{
B(LdaConstant), U8(0), //
B(Star), R(0), //
B(LdaConstant), U8(0), //
B(Return) //
},
1,
{1234}}};
for (size_t i = 0; i < arraysize(snippets); i++) {
Handle<BytecodeArray> bytecode_array =
helper.MakeBytecodeForFunctionBody(snippets[i].code_snippet);
CheckBytecodeArrayEqual(snippets[i], bytecode_array);
}
}
TEST(HeapNumberConstants) {
InitializedHandleScope handle_scope;
BytecodeGeneratorHelper helper;
int wide_idx = 0;
ExpectedSnippet<double, 257> snippets[] = {
{"return 1.2;",
0,
1,
3,
{
B(LdaConstant), U8(0), //
B(Return) //
},
1,
{1.2}},
{"var a = 1.2; return 2.6;",
1 * kPointerSize,
1,
7,
{
B(LdaConstant), U8(0), //
B(Star), R(0), //
B(LdaConstant), U8(1), //
B(Return) //
},
2,
{1.2, 2.6}},
{"var a = 3.14; return 3.14;",
1 * kPointerSize,
1,
7,
{
B(LdaConstant), U8(0), //
B(Star), R(0), //
B(LdaConstant), U8(1), //
B(Return) //
},
2,
{3.14, 3.14}},
{"var a;"
REPEAT_256(SPACE, " a = 1.414;")
" a = 3.14;",
1 * kPointerSize,
1,
1031,
{
REPEAT_256(COMMA, //
B(LdaConstant), U8(wide_idx++), //
B(Star), R(0)), //
B(LdaConstantWide), U16(wide_idx++), //
B(Star), R(0), //
B(LdaUndefined), //
B(Return), //
},
257,
{REPEAT_256(COMMA, 1.414),
3.14}}
};
for (size_t i = 0; i < arraysize(snippets); i++) {
Handle<BytecodeArray> bytecode_array =
helper.MakeBytecodeForFunctionBody(snippets[i].code_snippet);
CheckBytecodeArrayEqual(snippets[i], bytecode_array);
}
}
TEST(StringConstants) {
InitializedHandleScope handle_scope;
BytecodeGeneratorHelper helper;
ExpectedSnippet<const char*> snippets[] = {
{"return \"This is a string\";",
0,
1,
3,
{
B(LdaConstant), U8(0), //
B(Return) //
},
1,
{"This is a string"}},
{"var a = \"First string\"; return \"Second string\";",
1 * kPointerSize,
1,
7,
{
B(LdaConstant), U8(0), //
B(Star), R(0), //
B(LdaConstant), U8(1), //
B(Return) //
},
2,
{"First string", "Second string"}},
{"var a = \"Same string\"; return \"Same string\";",
1 * kPointerSize,
1,
7,
{
B(LdaConstant), U8(0), //
B(Star), R(0), //
B(LdaConstant), U8(0), //
B(Return) //
},
1,
{"Same string"}}};
for (size_t i = 0; i < arraysize(snippets); i++) {
Handle<BytecodeArray> bytecode_array =
helper.MakeBytecodeForFunctionBody(snippets[i].code_snippet);
CheckBytecodeArrayEqual(snippets[i], bytecode_array);
}
}
TEST(PropertyLoads) {
InitializedHandleScope handle_scope;
BytecodeGeneratorHelper helper;
Zone zone;
FeedbackVectorSpec feedback_spec(&zone);
FeedbackVectorSlot slot1 = feedback_spec.AddLoadICSlot();
FeedbackVectorSlot slot2 = feedback_spec.AddLoadICSlot();
Handle<i::TypeFeedbackVector> vector =
i::NewTypeFeedbackVector(helper.isolate(), &feedback_spec);
// These are a hack used by the LoadICXXXWide tests below.
int wide_idx_1 = vector->GetIndex(slot1) - 2;
int wide_idx_2 = vector->GetIndex(slot1) - 2;
int wide_idx_3 = vector->GetIndex(slot1) - 2;
int wide_idx_4 = vector->GetIndex(slot1) - 2;
ExpectedSnippet<const char*> snippets[] = {
{"function f(a) { return a.name; }\nf({name : \"test\"})",
0,
2,
5,
{
B(LoadICSloppy), A(1, 2), U8(0), U8(vector->GetIndex(slot1)), //
B(Return), //
},
1,
{"name"}},
{"function f(a) { return a[\"key\"]; }\nf({key : \"test\"})",
0,
2,
5,
{
B(LoadICSloppy), A(1, 2), U8(0), U8(vector->GetIndex(slot1)), //
B(Return) //
},
1,
{"key"}},
{"function f(a) { return a[100]; }\nf({100 : \"test\"})",
0,
2,
6,
{
B(LdaSmi8), U8(100), //
B(KeyedLoadICSloppy), A(1, 2), U8(vector->GetIndex(slot1)), //
B(Return) //
},
0},
{"function f(a, b) { return a[b]; }\nf({arg : \"test\"}, \"arg\")",
0,
3,
6,
{
B(Ldar), A(1, 2), //
B(KeyedLoadICSloppy), A(1, 3), U8(vector->GetIndex(slot1)), //
B(Return) //
},
0},
{"function f(a) { var b = a.name; return a[-124]; }\n"
"f({\"-124\" : \"test\", name : 123 })",
kPointerSize,
2,
12,
{
B(LoadICSloppy), A(1, 2), U8(0), U8(vector->GetIndex(slot1)), //
B(Star), R(0), //
B(LdaSmi8), U8(-124), //
B(KeyedLoadICSloppy), A(1, 2), U8(vector->GetIndex(slot2)), //
B(Return), //
},
1,
{"name"}},
{"function f(a) { \"use strict\"; return a.name; }\nf({name : \"test\"})",
0,
2,
5,
{
B(LoadICStrict), A(1, 2), U8(0), U8(vector->GetIndex(slot1)), //
B(Return), //
},
1,
{"name"}},
{
"function f(a, b) { \"use strict\"; return a[b]; }\n"
"f({arg : \"test\"}, \"arg\")",
0,
3,
6,
{
B(Ldar), A(2, 3), //
B(KeyedLoadICStrict), A(1, 3), U8(vector->GetIndex(slot1)), //
B(Return), //
},
0},
{
"function f(a) {\n"
" var b;\n"
REPEAT_127(SPACE, " b = a.name; ")
" return a.name; }\n"
"f({name : \"test\"})\n",
1 * kPointerSize,
2,
769,
{
REPEAT_127(COMMA, //
B(LoadICSloppy), A(1, 2), U8(0), U8((wide_idx_1 += 2)), //
B(Star), R(0)), //
B(LoadICSloppyWide), A(1, 2), U16(0), U16(wide_idx_1 += 2), //
B(Return), //
},
1,
{"name"}},
{
"function f(a) {\n"
" 'use strict'; var b;\n"
REPEAT_127(SPACE, " b = a.name; ")
" return a.name; }\n"
"f({name : \"test\"})\n",
1 * kPointerSize,
2,
769,
{
REPEAT_127(COMMA, //
B(LoadICStrict), A(1, 2), U8(0), U8((wide_idx_2 += 2)), //
B(Star), R(0)), //
B(LoadICStrictWide), A(1, 2), U16(0), U16(wide_idx_2 += 2), //
B(Return), //
},
1,
{"name"}},
{
"function f(a, b) {\n"
" var c;\n"
REPEAT_127(SPACE, " c = a[b]; ")
" return a[b]; }\n"
"f({name : \"test\"}, \"name\")\n",
1 * kPointerSize,
3,
896,
{
REPEAT_127(COMMA, //
B(Ldar), A(2, 3), //
B(KeyedLoadICSloppy), A(1, 3), U8((wide_idx_3 += 2)), //
B(Star), R(0)), //
B(Ldar), A(2, 3), //
B(KeyedLoadICSloppyWide), A(1, 3), U16(wide_idx_3 += 2), //
B(Return), //
}},
{
"function f(a, b) {\n"
" 'use strict'; var c;\n"
REPEAT_127(SPACE, " c = a[b]; ")
" return a[b]; }\n"
"f({name : \"test\"}, \"name\")\n",
1 * kPointerSize,
3,
896,
{
REPEAT_127(COMMA, //
B(Ldar), A(2, 3), //
B(KeyedLoadICStrict), A(1, 3), U8((wide_idx_4 += 2)), //
B(Star), R(0)), //
B(Ldar), A(2, 3), //
B(KeyedLoadICStrictWide), A(1, 3), U16(wide_idx_4 += 2), //
B(Return), //
}},
};
for (size_t i = 0; i < arraysize(snippets); i++) {
Handle<BytecodeArray> bytecode_array =
helper.MakeBytecode(snippets[i].code_snippet, helper.kFunctionName);
CheckBytecodeArrayEqual(snippets[i], bytecode_array);
}
}
TEST(PropertyStores) {
InitializedHandleScope handle_scope;
BytecodeGeneratorHelper helper;
Zone zone;
FeedbackVectorSpec feedback_spec(&zone);
FeedbackVectorSlot slot1 = feedback_spec.AddStoreICSlot();
FeedbackVectorSlot slot2 = feedback_spec.AddStoreICSlot();
Handle<i::TypeFeedbackVector> vector =
i::NewTypeFeedbackVector(helper.isolate(), &feedback_spec);
// These are a hack used by the StoreICXXXWide tests below.
int wide_idx_1 = vector->GetIndex(slot1) - 2;
int wide_idx_2 = vector->GetIndex(slot1) - 2;
int wide_idx_3 = vector->GetIndex(slot1) - 2;
int wide_idx_4 = vector->GetIndex(slot1) - 2;
ExpectedSnippet<const char*> snippets[] = {
{"function f(a) { a.name = \"val\"; }\nf({name : \"test\"})",
0,
2,
8,
{
B(LdaConstant), U8(1), //
B(StoreICSloppy), A(1, 2), U8(0), U8(vector->GetIndex(slot1)), //
B(LdaUndefined), //
B(Return), //
},
2,
{"name", "val"}},
{"function f(a) { a[\"key\"] = \"val\"; }\nf({key : \"test\"})",
0,
2,
8,
{
B(LdaConstant), U8(1), //
B(StoreICSloppy), A(1, 2), U8(0), U8(vector->GetIndex(slot1)), //
B(LdaUndefined), //
B(Return), //
},
2,
{"key", "val"}},
{"function f(a) { a[100] = \"val\"; }\nf({100 : \"test\"})",
kPointerSize,
2,
12,
{
B(LdaSmi8), U8(100), //
B(Star), R(0), //
B(LdaConstant), U8(0), //
B(KeyedStoreICSloppy), A(1, 2), R(0), //
U8(vector->GetIndex(slot1)), //
B(LdaUndefined), //
B(Return), //
},
1,
{"val"}},
{"function f(a, b) { a[b] = \"val\"; }\nf({arg : \"test\"}, \"arg\")",
0,
3,
8,
{
B(LdaConstant), U8(0), //
B(KeyedStoreICSloppy), A(1, 3), A(2, 3), //
U8(vector->GetIndex(slot1)), //
B(LdaUndefined), //
B(Return), //
},
1,
{"val"}},
{"function f(a) { a.name = a[-124]; }\n"
"f({\"-124\" : \"test\", name : 123 })",
0,
2,
11,
{
B(LdaSmi8), U8(-124), //
B(KeyedLoadICSloppy), A(1, 2), U8(vector->GetIndex(slot1)), //
B(StoreICSloppy), A(1, 2), U8(0), U8(vector->GetIndex(slot2)), //
B(LdaUndefined), //
B(Return), //
},
1,
{"name"}},
{"function f(a) { \"use strict\"; a.name = \"val\"; }\n"
"f({name : \"test\"})",
0,
2,
8,
{
B(LdaConstant), U8(1), //
B(StoreICStrict), A(1, 2), U8(0), U8(vector->GetIndex(slot1)), //
B(LdaUndefined), //
B(Return), //
},
2,
{"name", "val"}},
{"function f(a, b) { \"use strict\"; a[b] = \"val\"; }\n"
"f({arg : \"test\"}, \"arg\")",
0,
3,
8,
{
B(LdaConstant), U8(0), //
B(KeyedStoreICStrict), A(1, 3), A(2, 3), //
U8(vector->GetIndex(slot1)), //
B(LdaUndefined), //
B(Return), //
},
1,
{"val"}},
{"function f(a) {\n"
REPEAT_127(SPACE, " a.name = 1; ")
" a.name = 2; }\n"
"f({name : \"test\"})\n",
0,
2,
772,
{
REPEAT_127(COMMA, //
B(LdaSmi8), U8(1), //
B(StoreICSloppy), A(1, 2), U8(0), U8((wide_idx_1 += 2))), //
B(LdaSmi8), U8(2), //
B(StoreICSloppyWide), A(1, 2), U16(0), U16(wide_idx_1 += 2), //
B(LdaUndefined), //
B(Return), //
},
1,
{"name"}},
{"function f(a) {\n"
"'use strict';\n"
REPEAT_127(SPACE, " a.name = 1; ")
" a.name = 2; }\n"
"f({name : \"test\"})\n",
0,
2,
772,
{
REPEAT_127(COMMA, //
B(LdaSmi8), U8(1), //
B(StoreICStrict), A(1, 2), U8(0), U8((wide_idx_2 += 2))), //
B(LdaSmi8), U8(2), //
B(StoreICStrictWide), A(1, 2), U16(0), U16(wide_idx_2 += 2), //
B(LdaUndefined), //
B(Return), //
},
1,
{"name"}},
{"function f(a, b) {\n"
REPEAT_127(SPACE, " a[b] = 1; ")
" a[b] = 2; }\n"
"f({name : \"test\"})\n",
0,
3,
771,
{
REPEAT_127(COMMA, //
B(LdaSmi8), U8(1), //
B(KeyedStoreICSloppy), A(1, 3), A(2, 3), //
U8((wide_idx_3 += 2))), //
B(LdaSmi8), U8(2), //
B(KeyedStoreICSloppyWide), A(1, 3), A(2, 3), //
U16(wide_idx_3 += 2), //
B(LdaUndefined), //
B(Return), //
}},
{"function f(a, b) {\n"
"'use strict';\n"
REPEAT_127(SPACE, " a[b] = 1; ")
" a[b] = 2; }\n"
"f({name : \"test\"})\n",
0,
3,
771,
{
REPEAT_127(COMMA, //
B(LdaSmi8), U8(1), //
B(KeyedStoreICStrict), A(1, 3), A(2, 3), //
U8((wide_idx_4 += 2))), //
B(LdaSmi8), U8(2), //
B(KeyedStoreICStrictWide), A(1, 3), A(2, 3), //
U16(wide_idx_4 += 2), //
B(LdaUndefined), //
B(Return), //
}}};
for (size_t i = 0; i < arraysize(snippets); i++) {
Handle<BytecodeArray> bytecode_array =
helper.MakeBytecode(snippets[i].code_snippet, helper.kFunctionName);
CheckBytecodeArrayEqual(snippets[i], bytecode_array);
}
}
#define FUNC_ARG "new (function Obj() { this.func = function() { return; }})()"
TEST(PropertyCall) {
InitializedHandleScope handle_scope;
BytecodeGeneratorHelper helper;
Zone zone;
FeedbackVectorSpec feedback_spec(&zone);
FeedbackVectorSlot slot1 = feedback_spec.AddLoadICSlot();
FeedbackVectorSlot slot2 = feedback_spec.AddLoadICSlot();
USE(slot1);
Handle<i::TypeFeedbackVector> vector =
i::NewTypeFeedbackVector(helper.isolate(), &feedback_spec);
ExpectedSnippet<const char*> snippets[] = {
{"function f(a) { return a.func(); }\nf(" FUNC_ARG ")",
2 * kPointerSize,
2,
15,
{
B(Ldar), A(1, 2), //
B(Star), R(1), //
B(LoadICSloppy), R(1), U8(0), U8(vector->GetIndex(slot2)), //
B(Star), R(0), //
B(Call), R(0), R(1), U8(0), //
B(Return), //
},
1,
{"func"}},
{"function f(a, b, c) { return a.func(b, c); }\nf(" FUNC_ARG ", 1, 2)",
4 * kPointerSize,
4,
23,
{
B(Ldar), A(1, 4), //
B(Star), R(1), //
B(LoadICSloppy), R(1), U8(0), U8(vector->GetIndex(slot2)), //
B(Star), R(0), //
B(Ldar), A(2, 4), //
B(Star), R(2), //
B(Ldar), A(3, 4), //
B(Star), R(3), //
B(Call), R(0), R(1), U8(2), //
B(Return) //
},
1,
{"func"}},
{"function f(a, b) { return a.func(b + b, b); }\nf(" FUNC_ARG ", 1)",
4 * kPointerSize,
3,
25,
{
B(Ldar), A(1, 3), //
B(Star), R(1), //
B(LoadICSloppy), R(1), U8(0), U8(vector->GetIndex(slot2)), //
B(Star), R(0), //
B(Ldar), A(2, 3), //
B(Add), A(2, 3), //
B(Star), R(2), //
B(Ldar), A(2, 3), //
B(Star), R(3), //
B(Call), R(0), R(1), U8(2), //
B(Return), //
},
1,
{"func"}}};
for (size_t i = 0; i < arraysize(snippets); i++) {
Handle<BytecodeArray> bytecode_array =
helper.MakeBytecode(snippets[i].code_snippet, helper.kFunctionName);
CheckBytecodeArrayEqual(snippets[i], bytecode_array);
}
}
TEST(LoadGlobal) {
InitializedHandleScope handle_scope;
BytecodeGeneratorHelper helper;
Zone zone;
FeedbackVectorSpec feedback_spec(&zone);
FeedbackVectorSlot slot = feedback_spec.AddLoadICSlot();
Handle<i::TypeFeedbackVector> vector =
i::NewTypeFeedbackVector(helper.isolate(), &feedback_spec);
// These are a hack used by the LdaGlobalXXXWide tests below.
int wide_idx_1 = vector->GetIndex(slot) - 2;
int wide_idx_2 = vector->GetIndex(slot) - 2;
ExpectedSnippet<const char*> snippets[] = {
{"var a = 1;\nfunction f() { return a; }\nf()",
0,
1,
4,
{
B(LdaGlobalSloppy), U8(0), U8(vector->GetIndex(slot)), //
B(Return) //
},
1,
{"a"}},
{"function t() { }\nfunction f() { return t; }\nf()",
0,
1,
4,
{
B(LdaGlobalSloppy), U8(0), U8(vector->GetIndex(slot)), //
B(Return) //
},
1,
{"t"}},
{"'use strict'; var a = 1;\nfunction f() { return a; }\nf()",
0,
1,
4,
{
B(LdaGlobalStrict), U8(0), U8(vector->GetIndex(slot)), //
B(Return) //
},
1,
{"a"}},
{"a = 1;\nfunction f() { return a; }\nf()",
0,
1,
4,
{
B(LdaGlobalSloppy), U8(0), U8(vector->GetIndex(slot)), //
B(Return) //
},
1,
{"a"}},
{"a = 1; function f(b) {\n"
REPEAT_127(SPACE, "b.name; ")
" return a; }\nf({name: 1});",
0,
2,
514,
{
REPEAT_127(COMMA, //
B(LoadICSloppy), A(1, 2), U8(0), U8(wide_idx_1 += 2)), //
B(LdaGlobalSloppyWide), U16(1), U16(wide_idx_1 += 2), //
B(Return), //
},
2,
{"name", "a"}},
{"a = 1; function f(b) {\n"
" 'use strict';\n"
REPEAT_127(SPACE, "b.name; ")
" return a; }\nf({name: 1});",
0,
2,
514,
{
REPEAT_127(COMMA, //
B(LoadICStrict), A(1, 2), U8(0), U8(wide_idx_2 += 2)), //
B(LdaGlobalStrictWide), U16(1), U16(wide_idx_2 += 2), //
B(Return), //
},
2,
{"name", "a"}},
};
for (size_t i = 0; i < arraysize(snippets); i++) {
Handle<BytecodeArray> bytecode_array =
helper.MakeBytecode(snippets[i].code_snippet, "f");
CheckBytecodeArrayEqual(snippets[i], bytecode_array);
}
}
TEST(StoreGlobal) {
InitializedHandleScope handle_scope;
BytecodeGeneratorHelper helper;
Zone zone;
FeedbackVectorSpec feedback_spec(&zone);
FeedbackVectorSlot slot = feedback_spec.AddStoreICSlot();
Handle<i::TypeFeedbackVector> vector =
i::NewTypeFeedbackVector(helper.isolate(), &feedback_spec);
// These are a hack used by the StaGlobalXXXWide tests below.
int wide_idx_1 = vector->GetIndex(slot) - 2;
int wide_idx_2 = vector->GetIndex(slot) - 2;
ExpectedSnippet<const char*> snippets[] = {
{"var a = 1;\nfunction f() { a = 2; }\nf()",
0,
1,
7,
{
B(LdaSmi8), U8(2), //
B(StaGlobalSloppy), U8(0), U8(vector->GetIndex(slot)), //
B(LdaUndefined), //
B(Return) //
},
1,
{"a"}},
{"var a = \"test\"; function f(b) { a = b; }\nf(\"global\")",
0,
2,
7,
{
B(Ldar), R(helper.kLastParamIndex), //
B(StaGlobalSloppy), U8(0), U8(vector->GetIndex(slot)), //
B(LdaUndefined), //
B(Return) //
},
1,
{"a"}},
{"'use strict'; var a = 1;\nfunction f() { a = 2; }\nf()",
0,
1,
7,
{
B(LdaSmi8), U8(2), //
B(StaGlobalStrict), U8(0), U8(vector->GetIndex(slot)), //
B(LdaUndefined), //
B(Return) //
},
1,
{"a"}},
{"a = 1;\nfunction f() { a = 2; }\nf()",
0,
1,
7,
{
B(LdaSmi8), U8(2), //
B(StaGlobalSloppy), U8(0), U8(vector->GetIndex(slot)), //
B(LdaUndefined), //
B(Return) //
},
1,
{"a"}},
{"a = 1; function f(b) {\n"
REPEAT_127(SPACE, "b.name; ")
" a = 2; }\nf({name: 1});",
0,
2,
517,
{
REPEAT_127(COMMA, //
B(LoadICSloppy), A(1, 2), U8(0), U8(wide_idx_1 += 2)), //
B(LdaSmi8), U8(2), //
B(StaGlobalSloppyWide), U16(1), U16(wide_idx_1 += 2), //
B(LdaUndefined), //
B(Return), //
},
2,
{"name", "a"}},
{"a = 1; function f(b) {\n"
" 'use strict';\n"
REPEAT_127(SPACE, "b.name; ")
" a = 2; }\nf({name: 1});",
0,
2,
517,
{
REPEAT_127(COMMA, //
B(LoadICStrict), A(1, 2), U8(0), U8(wide_idx_2 += 2)), //
B(LdaSmi8), U8(2), //
B(StaGlobalStrictWide), U16(1), U16(wide_idx_2 += 2), //
B(LdaUndefined), //
B(Return), //
},
2,
{"name", "a"}},
};
for (size_t i = 0; i < arraysize(snippets); i++) {
Handle<BytecodeArray> bytecode_array =
helper.MakeBytecode(snippets[i].code_snippet, "f");
CheckBytecodeArrayEqual(snippets[i], bytecode_array);
}
}
TEST(CallGlobal) {
InitializedHandleScope handle_scope;
BytecodeGeneratorHelper helper;
Zone zone;
FeedbackVectorSpec feedback_spec(&zone);
FeedbackVectorSlot slot1 = feedback_spec.AddLoadICSlot();
FeedbackVectorSlot slot2 = feedback_spec.AddLoadICSlot();
USE(slot1);
Handle<i::TypeFeedbackVector> vector =
i::NewTypeFeedbackVector(helper.isolate(), &feedback_spec);
ExpectedSnippet<const char*> snippets[] = {
{"function t() { }\nfunction f() { return t(); }\nf()",
2 * kPointerSize,
1,
13,
{
B(LdaUndefined), //
B(Star), R(1), //
B(LdaGlobalSloppy), U8(0), U8(vector->GetIndex(slot2)), //
B(Star), R(0), //
B(Call), R(0), R(1), U8(0), //
B(Return) //
},
1,
{"t"}},
{"function t(a, b, c) { }\nfunction f() { return t(1, 2, 3); }\nf()",
5 * kPointerSize,
1,
25,
{
B(LdaUndefined), //
B(Star), R(1), //
B(LdaGlobalSloppy), U8(0), U8(vector->GetIndex(slot2)), //
B(Star), R(0), //
B(LdaSmi8), U8(1), //
B(Star), R(2), //
B(LdaSmi8), U8(2), //
B(Star), R(3), //
B(LdaSmi8), U8(3), //
B(Star), R(4), //
B(Call), R(0), R(1), U8(3), //
B(Return) //
},
1,
{"t"}},
};
size_t num_snippets = sizeof(snippets) / sizeof(snippets[0]);
for (size_t i = 0; i < num_snippets; i++) {
Handle<BytecodeArray> bytecode_array =
helper.MakeBytecode(snippets[i].code_snippet, "f");
CheckBytecodeArrayEqual(snippets[i], bytecode_array);
}
}
TEST(CallRuntime) {
InitializedHandleScope handle_scope;
BytecodeGeneratorHelper helper;
ExpectedSnippet<int> snippets[] = {
{
"function f() { %TheHole() }\nf()",
1 * kPointerSize,
1,
7,
{
B(CallRuntime), U16(Runtime::kTheHole), R(0), U8(0), //
B(LdaUndefined), //
B(Return) //
},
},
{
"function f(a) { return %IsArray(a) }\nf(undefined)",
1 * kPointerSize,
2,
10,
{
B(Ldar), A(1, 2), //
B(Star), R(0), //
B(CallRuntime), U16(Runtime::kIsArray), R(0), U8(1), //
B(Return) //
},
},
{
"function f() { return %Add(1, 2) }\nf()",
2 * kPointerSize,
1,
14,
{
B(LdaSmi8), U8(1), //
B(Star), R(0), //
B(LdaSmi8), U8(2), //
B(Star), R(1), //
B(CallRuntime), U16(Runtime::kAdd), R(0), U8(2), //
B(Return) //
},
},
};
for (size_t i = 0; i < arraysize(snippets); i++) {
Handle<BytecodeArray> bytecode_array =
helper.MakeBytecode(snippets[i].code_snippet, "f");
CheckBytecodeArrayEqual(snippets[i], bytecode_array);
}
}
TEST(IfConditions) {
InitializedHandleScope handle_scope;
BytecodeGeneratorHelper helper;
Handle<Object> unused = helper.factory()->undefined_value();
ExpectedSnippet<Handle<Object>> snippets[] = {
{"function f() { if (0) { return 1; } else { return -1; } } f()",
0,
1,
14,
{B(LdaZero), //
B(ToBoolean), //
B(JumpIfFalse), U8(7), //
B(LdaSmi8), U8(1), //
B(Return), //
B(Jump), U8(5), //
B(LdaSmi8), U8(-1), //
B(Return), //
B(LdaUndefined), //
B(Return)}, //
0,
{unused, unused, unused, unused, unused, unused}},
{"function f() { if ('lucky') { return 1; } else { return -1; } } f();",
0,
1,
15,
{B(LdaConstant), U8(0), //
B(ToBoolean), //
B(JumpIfFalse), U8(7), //
B(LdaSmi8), U8(1), //
B(Return), //
B(Jump), U8(5), //
B(LdaSmi8), U8(-1), //
B(Return), //
B(LdaUndefined), //
B(Return)}, //
1,
{helper.factory()->NewStringFromStaticChars("lucky"), unused, unused,
unused, unused, unused}},
{"function f() { if (false) { return 1; } else { return -1; } } f();",
0,
1,
13,
{B(LdaFalse), //
B(JumpIfFalse), U8(7), //
B(LdaSmi8), U8(1), //
B(Return), //
B(Jump), U8(5), //
B(LdaSmi8), U8(-1), //
B(Return), //
B(LdaUndefined), //
B(Return)}, //
0,
{unused, unused, unused, unused, unused, unused}},
{"function f(a) { if (a <= 0) { return 200; } else { return -200; } }"
"f(99);",
0,
2,
15,
{B(LdaZero), //
B(TestLessThanOrEqual), A(1, 2), //
B(JumpIfFalse), U8(7), //
B(LdaConstant), U8(0), //
B(Return), //
B(Jump), U8(5), //
B(LdaConstant), U8(1), //
B(Return), //
B(LdaUndefined), //
B(Return)}, //
2,
{helper.factory()->NewNumberFromInt(200),
helper.factory()->NewNumberFromInt(-200), unused, unused, unused,
unused}},
{"function f(a, b) { if (a in b) { return 200; } }"
"f('prop', { prop: 'yes'});",
0,
3,
11,
{B(Ldar), A(2, 3), //
B(TestIn), A(1, 3), //
B(JumpIfFalse), U8(5), //
B(LdaConstant), U8(0), //
B(Return), //
B(LdaUndefined), //
B(Return)}, //
1,
{helper.factory()->NewNumberFromInt(200), unused, unused, unused, unused,
unused}},
{"function f(z) { var a = 0; var b = 0; if (a === 0.01) { "
REPEAT_32(SPACE, "b = a; a = b; ")
" return 200; } else { return -200; } } f(0.001)",
2 * kPointerSize,
2,
278,
{
B(LdaZero), //
B(Star), R(0), //
B(LdaZero), //
B(Star), R(1), //
B(LdaConstant), U8(0), //
B(TestEqualStrict), R(0), //
B(JumpIfFalseConstant), U8(2), //
REPEAT_32(COMMA, //
B(Ldar), R(0), //
B(Star), R(1), //
B(Ldar), R(1), //
B(Star), R(0)), //
B(LdaConstant), U8(1), //
B(Return), //
B(Jump), U8(5), //
B(LdaConstant), U8(3), //
B(Return), //
B(LdaUndefined), //
B(Return)}, //
4,
{helper.factory()->NewHeapNumber(0.01),
helper.factory()->NewNumberFromInt(200),
helper.factory()->NewNumberFromInt(263),
helper.factory()->NewNumberFromInt(-200), unused, unused}},
{"function f(a, b) {\n"
" if (a == b) { return 1; }\n"
" if (a === b) { return 1; }\n"
" if (a < b) { return 1; }\n"
" if (a > b) { return 1; }\n"
" if (a <= b) { return 1; }\n"
" if (a >= b) { return 1; }\n"
" if (a in b) { return 1; }\n"
" if (a instanceof b) { return 1; }\n"
" return 0;\n"
"} f(1, 1);",
0,
3,
74,
{
#define IF_CONDITION_RETURN(condition) \
B(Ldar), A(2, 3), \
B(condition), A(1, 3), \
B(JumpIfFalse), U8(5), \
B(LdaSmi8), U8(1), \
B(Return),
IF_CONDITION_RETURN(TestEqual) //
IF_CONDITION_RETURN(TestEqualStrict) //
IF_CONDITION_RETURN(TestLessThan) //
IF_CONDITION_RETURN(TestGreaterThan) //
IF_CONDITION_RETURN(TestLessThanOrEqual) //
IF_CONDITION_RETURN(TestGreaterThanOrEqual) //
IF_CONDITION_RETURN(TestIn) //
IF_CONDITION_RETURN(TestInstanceOf) //
B(LdaZero), //
B(Return)}, //
#undef IF_CONDITION_RETURN
0,
{unused, unused, unused, unused, unused, unused}},
};
for (size_t i = 0; i < arraysize(snippets); i++) {
Handle<BytecodeArray> bytecode_array =
helper.MakeBytecode(snippets[i].code_snippet, helper.kFunctionName);
CheckBytecodeArrayEqual(snippets[i], bytecode_array);
}
}
TEST(DeclareGlobals) {
InitializedHandleScope handle_scope;
BytecodeGeneratorHelper helper;
Zone zone;
// Create different feedback vector specs to be precise on slot numbering.
FeedbackVectorSpec feedback_spec_stores(&zone);
FeedbackVectorSlot store_slot_1 = feedback_spec_stores.AddStoreICSlot();
FeedbackVectorSlot store_slot_2 = feedback_spec_stores.AddStoreICSlot();
USE(store_slot_1);
Handle<i::TypeFeedbackVector> store_vector =
i::NewTypeFeedbackVector(helper.isolate(), &feedback_spec_stores);
FeedbackVectorSpec feedback_spec_loads(&zone);
FeedbackVectorSlot load_slot_1 = feedback_spec_loads.AddLoadICSlot();
Handle<i::TypeFeedbackVector> load_vector =
i::NewTypeFeedbackVector(helper.isolate(), &feedback_spec_loads);
ExpectedSnippet<InstanceType> snippets[] = {
{"var a = 1;",
4 * kPointerSize,
1,
30,
{
B(LdaConstant), U8(0), //
B(Star), R(1), //
B(LdaZero), //
B(Star), R(2), //
B(CallRuntime), U16(Runtime::kDeclareGlobals), R(1), U8(2), //
B(LdaConstant), U8(1), //
B(Star), R(1), //
B(LdaZero), //
B(Star), R(2), //
B(LdaSmi8), U8(1), //
B(Star), R(3), //
B(CallRuntime), U16(Runtime::kInitializeVarGlobal), R(1), U8(3), //
B(LdaUndefined), //
B(Return) //
},
2,
{InstanceType::FIXED_ARRAY_TYPE,
InstanceType::ONE_BYTE_INTERNALIZED_STRING_TYPE}},
{"function f() {}",
2 * kPointerSize,
1,
14,
{
B(LdaConstant), U8(0), //
B(Star), R(0), //
B(LdaZero), //
B(Star), R(1), //
B(CallRuntime), U16(Runtime::kDeclareGlobals), R(0), U8(2), //
B(LdaUndefined), //
B(Return) //
},
1,
{InstanceType::FIXED_ARRAY_TYPE}},
{"var a = 1;\na=2;",
4 * kPointerSize,
1,
38,
{
B(LdaConstant), U8(0), //
B(Star), R(1), //
B(LdaZero), //
B(Star), R(2), //
B(CallRuntime), U16(Runtime::kDeclareGlobals), R(1), U8(2), //
B(LdaConstant), U8(1), //
B(Star), R(1), //
B(LdaZero), //
B(Star), R(2), //
B(LdaSmi8), U8(1), //
B(Star), R(3), //
B(CallRuntime), U16(Runtime::kInitializeVarGlobal), R(1), U8(3), //
B(LdaSmi8), U8(2), //
B(StaGlobalSloppy), U8(1), //
U8(store_vector->GetIndex(store_slot_2)), //
B(Star), R(0), //
B(Ldar), R(0), //
B(Return) //
},
2,
{InstanceType::FIXED_ARRAY_TYPE,
InstanceType::ONE_BYTE_INTERNALIZED_STRING_TYPE}},
{"function f() {}\nf();",
3 * kPointerSize,
1,
29,
{
B(LdaConstant), U8(0), //
B(Star), R(1), //
B(LdaZero), //
B(Star), R(2), //
B(CallRuntime), U16(Runtime::kDeclareGlobals), R(1), U8(2), //
B(LdaUndefined), //
B(Star), R(2), //
B(LdaGlobalSloppy), U8(1), //
U8(load_vector->GetIndex(load_slot_1)), //
B(Star), R(1), //
B(Call), R(1), R(2), U8(0), //
B(Star), R(0), //
B(Ldar), R(0), //
B(Return) //
},
2,
{InstanceType::FIXED_ARRAY_TYPE,
InstanceType::ONE_BYTE_INTERNALIZED_STRING_TYPE}},
};
for (size_t i = 0; i < arraysize(snippets); i++) {
Handle<BytecodeArray> bytecode_array =
helper.MakeTopLevelBytecode(snippets[i].code_snippet);
CheckBytecodeArrayEqual(snippets[i], bytecode_array);
}
}
TEST(BasicLoops) {
InitializedHandleScope handle_scope;
BytecodeGeneratorHelper helper;
ExpectedSnippet<int> snippets[] = {
{"var x = 0;"
"var y = 1;"
"while (x < 10) {"
" y = y * 12;"
" x = x + 1;"
"}"
"return y;",
2 * kPointerSize,
1,
30,
{
B(LdaZero), //
B(Star), R(0), //
B(LdaSmi8), U8(1), //
B(Star), R(1), //
B(Jump), U8(14), //
B(LdaSmi8), U8(12), //
B(Mul), R(1), //
B(Star), R(1), //
B(LdaSmi8), U8(1), //
B(Add), R(0), //
B(Star), R(0), //
B(LdaSmi8), U8(10), //
B(TestLessThan), R(0), //
B(JumpIfTrue), U8(-16), //
B(Ldar), R(1), //
B(Return), //
},
0},
{"var i = 0;"
"while(true) {"
" if (i < 0) continue;"
" if (i == 3) break;"
" if (i == 4) break;"
" if (i == 10) continue;"
" if (i == 5) break;"
" i = i + 1;"
"}"
"return i;",
1 * kPointerSize,
1,
56,
{
B(LdaZero), //
B(Star), R(0), //
B(Jump), U8(47), //
B(LdaZero), //
B(TestLessThan), R(0), //
B(JumpIfFalse), U8(4), //
B(Jump), U8(40), //
B(LdaSmi8), U8(3), //
B(TestEqual), R(0), //
B(JumpIfFalse), U8(4), //
B(Jump), U8(35), //
B(LdaSmi8), U8(4), //
B(TestEqual), R(0), //
B(JumpIfFalse), U8(4), //
B(Jump), U8(27), //
B(LdaSmi8), U8(10), //
B(TestEqual), R(0), //
B(JumpIfFalse), U8(4), //
B(Jump), U8(16), //
B(LdaSmi8), U8(5), //
B(TestEqual), R(0), //
B(JumpIfFalse), U8(4), //
B(Jump), U8(11), //
B(LdaSmi8), U8(1), //
B(Add), R(0), //
B(Star), R(0), //
B(LdaTrue), //
B(JumpIfTrue), U8(-46), //
B(Ldar), R(0), //
B(Return), //
},
0},
{"var x = 0; var y = 1;"
"do {"
" y = y * 10;"
" if (x == 5) break;"
" if (x == 6) continue;"
" x = x + 1;"
"} while (x < 10);"
"return y;",
2 * kPointerSize,
1,
44,
{
B(LdaZero), //
B(Star), R(0), //
B(LdaSmi8), U8(1), //
B(Star), R(1), //
B(LdaSmi8), U8(10), //
B(Mul), R(1), //
B(Star), R(1), //
B(LdaSmi8), U8(5), //
B(TestEqual), R(0), //
B(JumpIfFalse), U8(4), //
B(Jump), U8(22), //
B(LdaSmi8), U8(6), //
B(TestEqual), R(0), //
B(JumpIfFalse), U8(4), //
B(Jump), U8(8), //
B(LdaSmi8), U8(1), //
B(Add), R(0), //
B(Star), R(0), //
B(LdaSmi8), U8(10), //
B(TestLessThan), R(0), //
B(JumpIfTrue), U8(-32), //
B(Ldar), R(1), //
B(Return), //
},
0},
{"var x = 0; "
"for(;;) {"
" if (x == 1) break;"
" x = x + 1;"
"}",
1 * kPointerSize,
1,
21,
{
B(LdaZero), //
B(Star), R(0), //
B(LdaSmi8), U8(1), //
B(TestEqual), R(0), //
B(JumpIfFalse), U8(4), //
B(Jump), U8(10), //
B(LdaSmi8), U8(1), //
B(Add), R(0), //
B(Star), R(0), //
B(Jump), U8(-14), //
B(LdaUndefined), //
B(Return), //
},
0},
{"var u = 0;"
"for(var i = 0; i < 100; i = i + 1) {"
" u = u + 1;"
" continue;"
"}",
2 * kPointerSize,
1,
30,
{
B(LdaZero), //
B(Star), R(0), //
B(LdaZero), //
B(Star), R(1), //
B(Jump), U8(16), //
B(LdaSmi8), U8(1), //
B(Add), R(0), //
B(Star), R(0), //
B(Jump), U8(2), //
B(LdaSmi8), U8(1), //
B(Add), R(1), //
B(Star), R(1), //
B(LdaSmi8), U8(100), //
B(TestLessThan), R(1), //
B(JumpIfTrue), U8(-18), //
B(LdaUndefined), //
B(Return), //
},
0},
{"var i = 0;"
"while(true) {"
" while (i < 3) {"
" if (i == 2) break;"
" i = i + 1;"
" }"
" i = i + 1;"
" break;"
"}"
"return i;",
1 * kPointerSize,
1,
41,
{
B(LdaZero), //
B(Star), R(0), //
B(Jump), U8(32), //
B(Jump), U8(16), //
B(LdaSmi8), U8(2), //
B(TestEqual), R(0), //
B(JumpIfFalse), U8(4), //
B(Jump), U8(14), //
B(LdaSmi8), U8(1), //
B(Add), R(0), //
B(Star), R(0), //
B(LdaSmi8), U8(3), //
B(TestLessThan), R(0), //
B(JumpIfTrue), U8(-18), //
B(LdaSmi8), U8(1), //
B(Add), R(0), //
B(Star), R(0), //
B(Jump), U8(5), //
B(LdaTrue), //
B(JumpIfTrue), U8(-31), //
B(Ldar), R(0), //
B(Return), //
},
0},
};
for (size_t i = 0; i < arraysize(snippets); i++) {
Handle<BytecodeArray> bytecode_array =
helper.MakeBytecodeForFunctionBody(snippets[i].code_snippet);
CheckBytecodeArrayEqual(snippets[i], bytecode_array);
}
}
TEST(UnaryOperators) {
InitializedHandleScope handle_scope;
BytecodeGeneratorHelper helper;
ExpectedSnippet<int> snippets[] = {
{"var x = 0;"
"while (x != 10) {"
" x = x + 10;"
"}"
"return x;",
kPointerSize,
1,
21,
{
B(LdaZero), //
B(Star), R(0), //
B(Jump), U8(8), //
B(LdaSmi8), U8(10), //
B(Add), R(0), //
B(Star), R(0), //
B(LdaSmi8), U8(10), //
B(TestEqual), R(0), //
B(LogicalNot), //
B(JumpIfTrue), U8(-11), //
B(Ldar), R(0), //
B(Return), //
},
0},
{"var x = false;"
"do {"
" x = !x;"
"} while(x == false);"
"return x;",
kPointerSize,
1,
16,
{
B(LdaFalse), //
B(Star), R(0), //
B(Ldar), R(0), //
B(LogicalNot), //
B(Star), R(0), //
B(LdaFalse), //
B(TestEqual), R(0), //
B(JumpIfTrue), U8(-8), //
B(Ldar), R(0), //
B(Return), //
},
0},
{"var x = 101;"
"return void(x * 3);",
kPointerSize,
1,
10,
{
B(LdaSmi8), U8(101), //
B(Star), R(0), //
B(LdaSmi8), U8(3), //
B(Mul), R(0), //
B(LdaUndefined), //
B(Return), //
},
0},
{"var x = 1234;"
"var y = void (x * x - 1);"
"return y;",
3 * kPointerSize,
1,
20,
{
B(LdaConstant), U8(0), //
B(Star), R(0), //
B(Ldar), R(0), //
B(Mul), R(0), //
B(Star), R(2), //
B(LdaSmi8), U8(1), //
B(Sub), R(2), //
B(LdaUndefined), //
B(Star), R(1), //
B(Ldar), R(1), //
B(Return), //
},
1,
{1234}},
{"var x = 13;"
"return typeof(x);",
kPointerSize,
1,
8,
{
B(LdaSmi8), U8(13), //
B(Star), R(0), // TODO(oth): Ldar R(X) following Star R(X)
B(Ldar), R(0), // could be culled in bytecode array builder.
B(TypeOf), //
B(Return), //
},
0},
{"var x = 13;"
"return ~x;",
1 * kPointerSize,
1,
9,
{
B(LdaSmi8), U8(13), //
B(Star), R(0), //
B(LdaSmi8), U8(-1), //
B(BitwiseXor), R(0), //
B(Return), //
},
0},
{"var x = 13;"
"return +x;",
1 * kPointerSize,
1,
9,
{
B(LdaSmi8), U8(13), //
B(Star), R(0), //
B(LdaSmi8), U8(1), //
B(Mul), R(0), //
B(Return), //
},
0},
{"var x = 13;"
"return -x;",
1 * kPointerSize,
1,
9,
{
B(LdaSmi8), U8(13), //
B(Star), R(0), //
B(LdaSmi8), U8(-1), //
B(Mul), R(0), //
B(Return), //
},
0}};
for (size_t i = 0; i < arraysize(snippets); i++) {
Handle<BytecodeArray> bytecode_array =
helper.MakeBytecodeForFunctionBody(snippets[i].code_snippet);
CheckBytecodeArrayEqual(snippets[i], bytecode_array);
}
}
TEST(Delete) {
InitializedHandleScope handle_scope;
BytecodeGeneratorHelper helper;
int deep_elements_flags =
ObjectLiteral::kFastElements | ObjectLiteral::kDisableMementos;
int closure = Register::function_closure().index();
int first_context_slot = Context::MIN_CONTEXT_SLOTS;
ExpectedSnippet<InstanceType> snippets[] = {
{"var a = {x:13, y:14}; return delete a.x;",
1 * kPointerSize,
1,
12,
{
B(LdaConstant), U8(0), //
B(CreateObjectLiteral), U8(0), U8(deep_elements_flags), //
B(Star), R(0), //
B(LdaConstant), U8(1), //
B(DeletePropertySloppy), R(0), //
B(Return)
},
2,
{InstanceType::FIXED_ARRAY_TYPE,
InstanceType::ONE_BYTE_INTERNALIZED_STRING_TYPE}},
{"'use strict'; var a = {x:13, y:14}; return delete a.x;",
1 * kPointerSize,
1,
12,
{
B(LdaConstant), U8(0), //
B(CreateObjectLiteral), U8(0), U8(deep_elements_flags), //
B(Star), R(0), //
B(LdaConstant), U8(1), //
B(DeletePropertyStrict), R(0), //
B(Return)
},
2,
{InstanceType::FIXED_ARRAY_TYPE,
InstanceType::ONE_BYTE_INTERNALIZED_STRING_TYPE}},
{"var a = {1:13, 2:14}; return delete a[2];",
1 * kPointerSize,
1,
12,
{
B(LdaConstant), U8(0), //
B(CreateObjectLiteral), U8(0), U8(deep_elements_flags), //
B(Star), R(0), //
B(LdaSmi8), U8(2), //
B(DeletePropertySloppy), R(0), //
B(Return)
},
1,
{InstanceType::FIXED_ARRAY_TYPE}},
{"var a = 10; return delete a;",
1 * kPointerSize,
1,
6,
{
B(LdaSmi8), U8(10), //
B(Star), R(0), //
B(LdaFalse), //
B(Return)
},
0},
{"'use strict';"
"var a = {1:10};"
"(function f1() {return a;});"
"return delete a[1];",
2 * kPointerSize,
1,
29,
{
B(CallRuntime), U16(Runtime::kNewFunctionContext), //
R(closure), U8(1), //
B(PushContext), R(0), //
B(LdaConstant), U8(0), //
B(CreateObjectLiteral), U8(0), U8(deep_elements_flags), //
B(StaContextSlot), R(0), U8(first_context_slot), //
B(LdaConstant), U8(1), //
B(CreateClosure), U8(0), //
B(LdaContextSlot), R(0), U8(first_context_slot), //
B(Star), R(1), //
B(LdaSmi8), U8(1), //
B(DeletePropertyStrict), R(1), //
B(Return)
},
2,
{InstanceType::FIXED_ARRAY_TYPE,
InstanceType::SHARED_FUNCTION_INFO_TYPE}},
{"return delete 'test';",
0 * kPointerSize,
1,
2,
{
B(LdaTrue), //
B(Return)
},
0},
};
for (size_t i = 0; i < arraysize(snippets); i++) {
Handle<BytecodeArray> bytecode_array =
helper.MakeBytecodeForFunctionBody(snippets[i].code_snippet);
CheckBytecodeArrayEqual(snippets[i], bytecode_array);
}
}
TEST(GlobalDelete) {
InitializedHandleScope handle_scope;
BytecodeGeneratorHelper helper;
Zone zone;
int context = Register::function_context().index();
int global_object_index = Context::GLOBAL_OBJECT_INDEX;
FeedbackVectorSpec feedback_spec(&zone);
FeedbackVectorSlot slot = feedback_spec.AddLoadICSlot();
Handle<i::TypeFeedbackVector> vector =
i::NewTypeFeedbackVector(helper.isolate(), &feedback_spec);
ExpectedSnippet<InstanceType> snippets[] = {
{"var a = {x:13, y:14};\n function f() { return delete a.x; };\n f();",
1 * kPointerSize,
1,
10,
{
B(LdaGlobalSloppy), U8(0), U8(vector->GetIndex(slot)), //
B(Star), R(0), //
B(LdaConstant), U8(1), //
B(DeletePropertySloppy), R(0), //
B(Return)
},
2,
{InstanceType::ONE_BYTE_INTERNALIZED_STRING_TYPE,
InstanceType::ONE_BYTE_INTERNALIZED_STRING_TYPE}},
{"a = {1:13, 2:14};\n"
"function f() {'use strict'; return delete a[1];};\n f();",
1 * kPointerSize,
1,
10,
{
B(LdaGlobalStrict), U8(0), U8(vector->GetIndex(slot)), //
B(Star), R(0), //
B(LdaSmi8), U8(1), //
B(DeletePropertyStrict), R(0), //
B(Return)
},
1,
{InstanceType::ONE_BYTE_INTERNALIZED_STRING_TYPE}},
{"var a = {x:13, y:14};\n function f() { return delete a; };\n f();",
1 * kPointerSize,
1,
10,
{
B(LdaContextSlot), R(context), U8(global_object_index), //
B(Star), R(0), //
B(LdaConstant), U8(0), //
B(DeletePropertySloppy), R(0), //
B(Return)
},
1,
{InstanceType::ONE_BYTE_INTERNALIZED_STRING_TYPE}},
{"b = 30;\n function f() { return delete b; };\n f();",
1 * kPointerSize,
1,
10,
{
B(LdaContextSlot), R(context), U8(global_object_index), //
B(Star), R(0), //
B(LdaConstant), U8(0), //
B(DeletePropertySloppy), R(0), //
B(Return)
},
1,
{InstanceType::ONE_BYTE_INTERNALIZED_STRING_TYPE}}};
for (size_t i = 0; i < arraysize(snippets); i++) {
Handle<BytecodeArray> bytecode_array =
helper.MakeBytecode(snippets[i].code_snippet, "f");
CheckBytecodeArrayEqual(snippets[i], bytecode_array);
}
}
TEST(FunctionLiterals) {
InitializedHandleScope handle_scope;
BytecodeGeneratorHelper helper;
ExpectedSnippet<InstanceType> snippets[] = {
{"return function(){ }",
0,
1,
5,
{
B(LdaConstant), U8(0), //
B(CreateClosure), U8(0), //
B(Return) //
},
1,
{InstanceType::SHARED_FUNCTION_INFO_TYPE}},
{"return (function(){ })()",
2 * kPointerSize,
1,
14,
{
B(LdaUndefined), //
B(Star), R(1), //
B(LdaConstant), U8(0), //
B(CreateClosure), U8(0), //
B(Star), R(0), //
B(Call), R(0), R(1), U8(0), //
B(Return) //
},
1,
{InstanceType::SHARED_FUNCTION_INFO_TYPE}},
{"return (function(x){ return x; })(1)",
3 * kPointerSize,
1,
18,
{
B(LdaUndefined), //
B(Star), R(1), //
B(LdaConstant), U8(0), //
B(CreateClosure), U8(0), //
B(Star), R(0), //
B(LdaSmi8), U8(1), //
B(Star), R(2), //
B(Call), R(0), R(1), U8(1), //
B(Return) //
},
1,
{InstanceType::SHARED_FUNCTION_INFO_TYPE}},
};
for (size_t i = 0; i < arraysize(snippets); i++) {
Handle<BytecodeArray> bytecode_array =
helper.MakeBytecodeForFunctionBody(snippets[i].code_snippet);
CheckBytecodeArrayEqual(snippets[i], bytecode_array);
}
}
TEST(RegExpLiterals) {
InitializedHandleScope handle_scope;
BytecodeGeneratorHelper helper;
Zone zone;
FeedbackVectorSpec feedback_spec(&zone);
feedback_spec.AddLoadICSlot();
FeedbackVectorSlot slot2 = feedback_spec.AddLoadICSlot();
Handle<i::TypeFeedbackVector> vector =
i::NewTypeFeedbackVector(helper.isolate(), &feedback_spec);
ExpectedSnippet<const char*> snippets[] = {
{"return /ab+d/;",
1 * kPointerSize,
1,
10,
{
B(LdaConstant), U8(0), //
B(Star), R(0), //
B(LdaConstant), U8(1), //
B(CreateRegExpLiteral), U8(0), R(0), //
B(Return), //
},
2,
{"", "ab+d"}},
{"return /(\\w+)\\s(\\w+)/i;",
1 * kPointerSize,
1,
10,
{
B(LdaConstant), U8(0), //
B(Star), R(0), //
B(LdaConstant), U8(1), //
B(CreateRegExpLiteral), U8(0), R(0), //
B(Return), //
},
2,
{"i", "(\\w+)\\s(\\w+)"}},
{"return /ab+d/.exec('abdd');",
3 * kPointerSize,
1,
26,
{
B(LdaConstant), U8(0), //
B(Star), R(2), //
B(LdaConstant), U8(1), //
B(CreateRegExpLiteral), U8(0), R(2), //
B(Star), R(1), //
B(LoadICSloppy), R(1), U8(2), U8(vector->GetIndex(slot2)), //
B(Star), R(0), //
B(LdaConstant), U8(3), //
B(Star), R(2), //
B(Call), R(0), R(1), U8(1), //
B(Return), //
},
4,
{"", "ab+d", "exec", "abdd"}},
};
for (size_t i = 0; i < arraysize(snippets); i++) {
Handle<BytecodeArray> bytecode_array =
helper.MakeBytecodeForFunctionBody(snippets[i].code_snippet);
CheckBytecodeArrayEqual(snippets[i], bytecode_array);
}
}
TEST(ArrayLiterals) {
InitializedHandleScope handle_scope;
BytecodeGeneratorHelper helper;
Zone zone;
FeedbackVectorSpec feedback_spec(&zone);
FeedbackVectorSlot slot1 = feedback_spec.AddKeyedStoreICSlot();
FeedbackVectorSlot slot2 = feedback_spec.AddKeyedStoreICSlot();
FeedbackVectorSlot slot3 = feedback_spec.AddKeyedStoreICSlot();
Handle<i::TypeFeedbackVector> vector =
i::NewTypeFeedbackVector(helper.isolate(), &feedback_spec);
int simple_flags =
ArrayLiteral::kDisableMementos | ArrayLiteral::kShallowElements;
int deep_elements_flags = ArrayLiteral::kDisableMementos;
ExpectedSnippet<InstanceType> snippets[] = {
{"return [ 1, 2 ];",
0,
1,
6,
{
B(LdaConstant), U8(0), //
B(CreateArrayLiteral), U8(0), U8(simple_flags), //
B(Return) //
},
1,
{InstanceType::FIXED_ARRAY_TYPE}},
{"var a = 1; return [ a, a + 1 ];",
3 * kPointerSize,
1,
35,
{
B(LdaSmi8), U8(1), //
B(Star), R(0), //
B(LdaConstant), U8(0), //
B(CreateArrayLiteral), U8(0), U8(3), //
B(Star), R(2), //
B(LdaZero), //
B(Star), R(1), //
B(Ldar), R(0), //
B(KeyedStoreICSloppy), R(2), R(1), U8(vector->GetIndex(slot1)), //
B(LdaSmi8), U8(1), //
B(Star), R(1), //
B(LdaSmi8), U8(1), //
B(Add), R(0), //
B(KeyedStoreICSloppy), R(2), R(1), U8(vector->GetIndex(slot1)), //
B(Ldar), R(2), //
B(Return), //
},
1,
{InstanceType::FIXED_ARRAY_TYPE}},
{"return [ [ 1, 2 ], [ 3 ] ];",
0,
1,
6,
{
B(LdaConstant), U8(0), //
B(CreateArrayLiteral), U8(2), U8(deep_elements_flags), //
B(Return) //
},
1,
{InstanceType::FIXED_ARRAY_TYPE}},
{"var a = 1; return [ [ a, 2 ], [ a + 2 ] ];",
5 * kPointerSize,
1,
67,
{
B(LdaSmi8), U8(1), //
B(Star), R(0), //
B(LdaConstant), U8(0), //
B(CreateArrayLiteral), U8(2), U8(deep_elements_flags), //
B(Star), R(2), //
B(LdaZero), //
B(Star), R(1), //
B(LdaConstant), U8(1), //
B(CreateArrayLiteral), U8(0), U8(simple_flags), //
B(Star), R(4), //
B(LdaZero), //
B(Star), R(3), //
B(Ldar), R(0), //
B(KeyedStoreICSloppy), R(4), R(3), U8(vector->GetIndex(slot1)), //
B(Ldar), R(4), //
B(KeyedStoreICSloppy), R(2), R(1), U8(vector->GetIndex(slot3)), //
B(LdaSmi8), U8(1), //
B(Star), R(1), //
B(LdaConstant), U8(2), //
B(CreateArrayLiteral), U8(1), U8(simple_flags), //
B(Star), R(4), //
B(LdaZero), //
B(Star), R(3), //
B(LdaSmi8), U8(2), //
B(Add), R(0), //
B(KeyedStoreICSloppy), R(4), R(3), U8(vector->GetIndex(slot2)), //
B(Ldar), R(4), //
B(KeyedStoreICSloppy), R(2), R(1), U8(vector->GetIndex(slot3)), //
B(Ldar), R(2), //
B(Return), //
},
3,
{InstanceType::FIXED_ARRAY_TYPE, InstanceType::FIXED_ARRAY_TYPE,
InstanceType::FIXED_ARRAY_TYPE}},
};
for (size_t i = 0; i < arraysize(snippets); i++) {
Handle<BytecodeArray> bytecode_array =
helper.MakeBytecodeForFunctionBody(snippets[i].code_snippet);
CheckBytecodeArrayEqual(snippets[i], bytecode_array);
}
}
TEST(ObjectLiterals) {
InitializedHandleScope handle_scope;
BytecodeGeneratorHelper helper;
Zone zone;
FeedbackVectorSpec feedback_spec(&zone);
FeedbackVectorSlot slot1 = feedback_spec.AddStoreICSlot();
Handle<i::TypeFeedbackVector> vector =
i::NewTypeFeedbackVector(helper.isolate(), &feedback_spec);
int simple_flags = ObjectLiteral::kFastElements |
ObjectLiteral::kShallowProperties |
ObjectLiteral::kDisableMementos;
int deep_elements_flags =
ObjectLiteral::kFastElements | ObjectLiteral::kDisableMementos;
ExpectedSnippet<InstanceType> snippets[] = {
{"return { };",
0,
1,
6,
{
B(LdaConstant), U8(0), //
B(CreateObjectLiteral), U8(0), U8(simple_flags), //
B(Return) //
},
1,
{InstanceType::FIXED_ARRAY_TYPE}},
{"return { name: 'string', val: 9.2 };",
0,
1,
6,
{
B(LdaConstant), U8(0), //
B(CreateObjectLiteral), U8(0), U8(deep_elements_flags), //
B(Return) //
},
1,
{InstanceType::FIXED_ARRAY_TYPE}},
{"var a = 1; return { name: 'string', val: a };",
2 * kPointerSize,
1,
20,
{
B(LdaSmi8), U8(1), //
B(Star), R(0), //
B(LdaConstant), U8(0), //
B(CreateObjectLiteral), U8(0), U8(deep_elements_flags), //
B(Star), R(1), //
B(Ldar), R(0), //
B(StoreICSloppy), R(1), U8(1), U8(vector->GetIndex(slot1)), //
B(Ldar), R(1), //
B(Return), //
},
2,
{InstanceType::FIXED_ARRAY_TYPE,
InstanceType::ONE_BYTE_INTERNALIZED_STRING_TYPE}},
{"var a = 1; return { val: a, val: a + 1 };",
2 * kPointerSize,
1,
22,
{
B(LdaSmi8), U8(1), //
B(Star), R(0), //
B(LdaConstant), U8(0), //
B(CreateObjectLiteral), U8(0), U8(deep_elements_flags), //
B(Star), R(1), //
B(LdaSmi8), U8(1), //
B(Add), R(0), //
B(StoreICSloppy), R(1), U8(1), U8(vector->GetIndex(slot1)), //
B(Ldar), R(1), //
B(Return), //
},
2,
{InstanceType::FIXED_ARRAY_TYPE,
InstanceType::ONE_BYTE_INTERNALIZED_STRING_TYPE}},
{"return { func: function() { } };",
1 * kPointerSize,
1,
18,
{
B(LdaConstant), U8(0), //
B(CreateObjectLiteral), U8(0), U8(deep_elements_flags), //
B(Star), R(0), //
B(LdaConstant), U8(2), //
B(CreateClosure), U8(0), //
B(StoreICSloppy), R(0), U8(1), U8(vector->GetIndex(slot1)), //
B(Ldar), R(0), //
B(Return), //
},
3,
{InstanceType::FIXED_ARRAY_TYPE,
InstanceType::ONE_BYTE_INTERNALIZED_STRING_TYPE,
InstanceType::SHARED_FUNCTION_INFO_TYPE}},
{"return { func(a) { return a; } };",
1 * kPointerSize,
1,
18,
{
B(LdaConstant), U8(0), //
B(CreateObjectLiteral), U8(0), U8(deep_elements_flags), //
B(Star), R(0), //
B(LdaConstant), U8(2), //
B(CreateClosure), U8(0), //
B(StoreICSloppy), R(0), U8(1), U8(vector->GetIndex(slot1)), //
B(Ldar), R(0), //
B(Return), //
},
3,
{InstanceType::FIXED_ARRAY_TYPE,
InstanceType::ONE_BYTE_INTERNALIZED_STRING_TYPE,
InstanceType::SHARED_FUNCTION_INFO_TYPE}},
{"return { get a() { return 2; } };",
5 * kPointerSize,
1,
31,
{
B(LdaConstant), U8(0), //
B(CreateObjectLiteral), U8(0), U8(deep_elements_flags), //
B(Star), R(0), //
B(LdaConstant), U8(1), //
B(Star), R(1), //
B(LdaConstant), U8(2), //
B(CreateClosure), U8(0), //
B(Star), R(2), //
B(LdaNull), //
B(Star), R(3), //
B(LdaZero), //
B(Star), R(4), //
B(CallRuntime), U16(Runtime::kDefineAccessorPropertyUnchecked), //
R(0), U8(5), //
B(Ldar), R(0), //
B(Return), //
},
3,
{InstanceType::FIXED_ARRAY_TYPE,
InstanceType::ONE_BYTE_INTERNALIZED_STRING_TYPE,
InstanceType::SHARED_FUNCTION_INFO_TYPE}},
{"return { get a() { return this.x; }, set a(val) { this.x = val } };",
5 * kPointerSize,
1,
34,
{
B(LdaConstant), U8(0), //
B(CreateObjectLiteral), U8(0), U8(deep_elements_flags), //
B(Star), R(0), //
B(LdaConstant), U8(1), //
B(Star), R(1), //
B(LdaConstant), U8(2), //
B(CreateClosure), U8(0), //
B(Star), R(2), //
B(LdaConstant), U8(3), //
B(CreateClosure), U8(0), //
B(Star), R(3), //
B(LdaZero), //
B(Star), R(4), //
B(CallRuntime), U16(Runtime::kDefineAccessorPropertyUnchecked), //
R(0), U8(5), //
B(Ldar), R(0), //
B(Return), //
},
4,
{InstanceType::FIXED_ARRAY_TYPE,
InstanceType::ONE_BYTE_INTERNALIZED_STRING_TYPE,
InstanceType::SHARED_FUNCTION_INFO_TYPE,
InstanceType::SHARED_FUNCTION_INFO_TYPE}},
{"return { set b(val) { this.y = val } };",
5 * kPointerSize,
1,
31,
{
B(LdaConstant), U8(0), //
B(CreateObjectLiteral), U8(0), U8(deep_elements_flags), //
B(Star), R(0), //
B(LdaConstant), U8(1), //
B(Star), R(1), //
B(LdaNull), //
B(Star), R(2), //
B(LdaConstant), U8(2), //
B(CreateClosure), U8(0), //
B(Star), R(3), //
B(LdaZero), //
B(Star), R(4), //
B(CallRuntime), U16(Runtime::kDefineAccessorPropertyUnchecked), //
R(0), U8(5), //
B(Ldar), R(0), //
B(Return), //
},
3,
{InstanceType::FIXED_ARRAY_TYPE,
InstanceType::ONE_BYTE_INTERNALIZED_STRING_TYPE,
InstanceType::SHARED_FUNCTION_INFO_TYPE}},
{"var a = 1; return { 1: a };",
5 * kPointerSize,
1,
30,
{
B(LdaSmi8), U8(1), //
B(Star), R(0), //
B(LdaConstant), U8(0), //
B(CreateObjectLiteral), U8(0), U8(deep_elements_flags), //
B(Star), R(1), //
B(LdaSmi8), U8(1), //
B(Star), R(2), //
B(Ldar), R(0), //
B(Star), R(3), //
B(LdaZero), //
B(Star), R(4), //
B(CallRuntime), U16(Runtime::kSetProperty), R(1), U8(4), //
B(Ldar), R(1), //
B(Return), //
},
1,
{InstanceType::FIXED_ARRAY_TYPE}},
{"return { __proto__: null }",
2 * kPointerSize,
1,
18,
{
B(LdaConstant), U8(0), //
B(CreateObjectLiteral), U8(0), U8(simple_flags), //
B(Star), R(0), //
B(LdaNull), B(Star), R(1), //
B(CallRuntime), U16(Runtime::kInternalSetPrototype), R(0), U8(2), //
B(Ldar), R(0), //
B(Return), //
},
1,
{InstanceType::FIXED_ARRAY_TYPE}},
{"var a = 'test'; return { [a]: 1 }",
5 * kPointerSize,
1,
31,
{
B(LdaConstant), U8(0), //
B(Star), R(0), //
B(LdaConstant), U8(1), //
B(CreateObjectLiteral), U8(0), U8(simple_flags), //
B(Star), R(1), //
B(Ldar), R(0), //
B(ToName), //
B(Star), R(2), //
B(LdaSmi8), U8(1), //
B(Star), R(3), //
B(LdaZero), //
B(Star), R(4), //
B(CallRuntime), U16(Runtime::kDefineDataPropertyUnchecked), R(1), //
U8(4), //
B(Ldar), R(1), //
B(Return), //
},
2,
{InstanceType::ONE_BYTE_INTERNALIZED_STRING_TYPE,
InstanceType::FIXED_ARRAY_TYPE}},
{"var a = 'test'; return { val: a, [a]: 1 }",
5 * kPointerSize,
1,
37,
{
B(LdaConstant), U8(0), //
B(Star), R(0), //
B(LdaConstant), U8(1), //
B(CreateObjectLiteral), U8(0), U8(deep_elements_flags), //
B(Star), R(1), //
B(Ldar), R(0), //
B(StoreICSloppy), R(1), U8(2), U8(vector->GetIndex(slot1)), //
B(Ldar), R(0), //
B(ToName), //
B(Star), R(2), //
B(LdaSmi8), U8(1), //
B(Star), R(3), //
B(LdaZero), //
B(Star), R(4), //
B(CallRuntime), U16(Runtime::kDefineDataPropertyUnchecked), R(1), //
U8(4), //
B(Ldar), R(1), //
B(Return), //
},
3,
{InstanceType::ONE_BYTE_INTERNALIZED_STRING_TYPE,
InstanceType::FIXED_ARRAY_TYPE,
InstanceType::ONE_BYTE_INTERNALIZED_STRING_TYPE}},
{"var a = 'test'; return { [a]: 1, __proto__: {} }",
5 * kPointerSize,
1,
43,
{
B(LdaConstant), U8(0), //
B(Star), R(0), //
B(LdaConstant), U8(1), //
B(CreateObjectLiteral), U8(1), U8(simple_flags), //
B(Star), R(1), //
B(Ldar), R(0), //
B(ToName), //
B(Star), R(2), //
B(LdaSmi8), U8(1), //
B(Star), R(3), //
B(LdaZero), //
B(Star), R(4), //
B(CallRuntime), U16(Runtime::kDefineDataPropertyUnchecked), R(1), //
U8(4), //
B(LdaConstant), U8(1), //
B(CreateObjectLiteral), U8(0), U8(13), //
B(Star), R(2), //
B(CallRuntime), U16(Runtime::kInternalSetPrototype), R(1), U8(2), //
B(Ldar), R(1), //
B(Return), //
},
2,
{InstanceType::ONE_BYTE_INTERNALIZED_STRING_TYPE,
InstanceType::FIXED_ARRAY_TYPE}},
{"var n = 'name'; return { [n]: 'val', get a() { }, set a(b) {} };",
5 * kPointerSize,
1,
69,
{
B(LdaConstant), U8(0), //
B(Star), R(0), //
B(LdaConstant), U8(1), //
B(CreateObjectLiteral), U8(0), U8(simple_flags), //
B(Star), R(1), //
B(Ldar), R(0), //
B(ToName), //
B(Star), R(2), //
B(LdaConstant), U8(2), //
B(Star), R(3), //
B(LdaZero), //
B(Star), R(4), //
B(CallRuntime), U16(Runtime::kDefineDataPropertyUnchecked), R(1), //
U8(4), //
B(LdaConstant), U8(3), //
B(ToName), //
B(Star), R(2), //
B(LdaConstant), U8(4), //
B(CreateClosure), U8(0), //
B(Star), R(3), //
B(LdaZero), //
B(Star), R(4), //
B(CallRuntime), U16(Runtime::kDefineGetterPropertyUnchecked), //
R(1), U8(4), //
B(LdaConstant), U8(3), //
B(ToName), //
B(Star), R(2), //
B(LdaConstant), U8(5), //
B(CreateClosure), U8(0), //
B(Star), R(3), //
B(LdaZero), //
B(Star), R(4), //
B(CallRuntime), U16(Runtime::kDefineSetterPropertyUnchecked), //
R(1), U8(4), //
B(Ldar), R(1), //
B(Return), //
},
6,
{InstanceType::ONE_BYTE_INTERNALIZED_STRING_TYPE,
InstanceType::FIXED_ARRAY_TYPE,
InstanceType::ONE_BYTE_INTERNALIZED_STRING_TYPE,
InstanceType::ONE_BYTE_INTERNALIZED_STRING_TYPE,
InstanceType::SHARED_FUNCTION_INFO_TYPE,
InstanceType::SHARED_FUNCTION_INFO_TYPE}},
};
for (size_t i = 0; i < arraysize(snippets); i++) {
Handle<BytecodeArray> bytecode_array =
helper.MakeBytecodeForFunctionBody(snippets[i].code_snippet);
CheckBytecodeArrayEqual(snippets[i], bytecode_array);
}
}
TEST(TopLevelObjectLiterals) {
InitializedHandleScope handle_scope;
BytecodeGeneratorHelper helper;
int has_function_flags = ObjectLiteral::kFastElements |
ObjectLiteral::kHasFunction |
ObjectLiteral::kDisableMementos;
ExpectedSnippet<InstanceType> snippets[] = {
{"var a = { func: function() { } };",
5 * kPointerSize,
1,
50,
{
B(LdaConstant), U8(0), //
B(Star), R(1), //
B(LdaZero), //
B(Star), R(2), //
B(CallRuntime), U16(Runtime::kDeclareGlobals), R(1), U8(2), //
B(LdaConstant), U8(1), //
B(Star), R(1), //
B(LdaZero), //
B(Star), R(2), //
B(LdaConstant), U8(2), //
B(CreateObjectLiteral), U8(0), U8(has_function_flags), //
B(Star), R(4), //
B(LdaConstant), U8(4), //
B(CreateClosure), U8(1), //
B(StoreICSloppy), R(4), U8(3), U8(5), //
B(CallRuntime), U16(Runtime::kToFastProperties), R(4), U8(1), //
B(Ldar), R(4), //
B(Star), R(3), //
B(CallRuntime), U16(Runtime::kInitializeVarGlobal), R(1), U8(3), //
B(LdaUndefined), //
B(Return), //
},
5,
{InstanceType::FIXED_ARRAY_TYPE,
InstanceType::ONE_BYTE_INTERNALIZED_STRING_TYPE,
InstanceType::FIXED_ARRAY_TYPE,
InstanceType::ONE_BYTE_INTERNALIZED_STRING_TYPE,
InstanceType::SHARED_FUNCTION_INFO_TYPE}},
};
for (size_t i = 0; i < arraysize(snippets); i++) {
Handle<BytecodeArray> bytecode_array =
helper.MakeTopLevelBytecode(snippets[i].code_snippet);
CheckBytecodeArrayEqual(snippets[i], bytecode_array);
}
}
TEST(TryCatch) {
InitializedHandleScope handle_scope;
BytecodeGeneratorHelper helper;
// TODO(rmcilroy): modify tests when we have real try catch support.
ExpectedSnippet<int> snippets[] = {
{"try { return 1; } catch(e) { return 2; }",
kPointerSize,
1,
5,
{
B(LdaSmi8), U8(1), //
B(Return), //
B(LdaUndefined), //
B(Return), //
},
0},
};
for (size_t i = 0; i < arraysize(snippets); i++) {
Handle<BytecodeArray> bytecode_array =
helper.MakeBytecodeForFunctionBody(snippets[i].code_snippet);
CheckBytecodeArrayEqual(snippets[i], bytecode_array);
}
}
TEST(TryFinally) {
InitializedHandleScope handle_scope;
BytecodeGeneratorHelper helper;
// TODO(rmcilroy): modify tests when we have real try finally support.
ExpectedSnippet<int> snippets[] = {
{"var a = 1; try { a = 2; } finally { a = 3; }",
kPointerSize,
1,
14,
{
B(LdaSmi8), U8(1), //
B(Star), R(0), //
B(LdaSmi8), U8(2), //
B(Star), R(0), //
B(LdaSmi8), U8(3), //
B(Star), R(0), //
B(LdaUndefined), //
B(Return), //
},
0},
{"var a = 1; try { a = 2; } catch(e) { a = 20 } finally { a = 3; }",
2 * kPointerSize,
1,
14,
{
B(LdaSmi8), U8(1), //
B(Star), R(0), //
B(LdaSmi8), U8(2), //
B(Star), R(0), //
B(LdaSmi8), U8(3), //
B(Star), R(0), //
B(LdaUndefined), //
B(Return), //
},
0},
};
for (size_t i = 0; i < arraysize(snippets); i++) {
Handle<BytecodeArray> bytecode_array =
helper.MakeBytecodeForFunctionBody(snippets[i].code_snippet);
CheckBytecodeArrayEqual(snippets[i], bytecode_array);
}
}
TEST(Throw) {
InitializedHandleScope handle_scope;
BytecodeGeneratorHelper helper;
// TODO(rmcilroy): modify tests when we have real try catch support.
ExpectedSnippet<const char*> snippets[] = {
{"throw 1;",
0,
1,
3,
{
B(LdaSmi8), U8(1), //
B(Throw), //
},
0},
{"throw 'Error';",
0,
1,
3,
{
B(LdaConstant), U8(0), //
B(Throw), //
},
1,
{"Error"}},
{"if ('test') { throw 'Error'; };",
0,
1,
10,
{
B(LdaConstant), U8(0), //
B(ToBoolean), //
B(JumpIfFalse), U8(5), //
B(LdaConstant), U8(1), //
B(Throw), //
B(LdaUndefined), //
B(Return), //
},
2,
{"test", "Error"}},
};
for (size_t i = 0; i < arraysize(snippets); i++) {
Handle<BytecodeArray> bytecode_array =
helper.MakeBytecodeForFunctionBody(snippets[i].code_snippet);
CheckBytecodeArrayEqual(snippets[i], bytecode_array);
}
}
TEST(CallNew) {
InitializedHandleScope handle_scope;
BytecodeGeneratorHelper helper;
Zone zone;
FeedbackVectorSpec feedback_spec(&zone);
FeedbackVectorSlot slot1 = feedback_spec.AddGeneralSlot();
FeedbackVectorSlot slot2 = feedback_spec.AddLoadICSlot();
USE(slot1);
Handle<i::TypeFeedbackVector> vector =
i::NewTypeFeedbackVector(helper.isolate(), &feedback_spec);
ExpectedSnippet<InstanceType> snippets[] = {
{"function bar() { this.value = 0; }\n"
"function f() { return new bar(); }\n"
"f()",
1 * kPointerSize,
1,
10,
{
B(LdaGlobalSloppy), U8(0), U8(vector->GetIndex(slot2)), //
B(Star), R(0), //
B(New), R(0), R(0), U8(0), //
B(Return), //
},
1,
{InstanceType::ONE_BYTE_INTERNALIZED_STRING_TYPE}},
{"function bar(x) { this.value = 18; this.x = x;}\n"
"function f() { return new bar(3); }\n"
"f()",
2 * kPointerSize,
1,
14,
{
B(LdaGlobalSloppy), U8(0), U8(vector->GetIndex(slot2)), //
B(Star), R(0), //
B(LdaSmi8), U8(3), //
B(Star), R(1), //
B(New), R(0), R(1), U8(1), //
B(Return), //
},
1,
{InstanceType::ONE_BYTE_INTERNALIZED_STRING_TYPE}},
{"function bar(w, x, y, z) {\n"
" this.value = 18;\n"
" this.x = x;\n"
" this.y = y;\n"
" this.z = z;\n"
"}\n"
"function f() { return new bar(3, 4, 5); }\n"
"f()",
4 * kPointerSize,
1,
22,
{
B(LdaGlobalSloppy), U8(0), U8(vector->GetIndex(slot2)), //
B(Star), R(0), //
B(LdaSmi8), U8(3), //
B(Star), R(1), //
B(LdaSmi8), U8(4), //
B(Star), R(2), //
B(LdaSmi8), U8(5), //
B(Star), R(3), //
B(New), R(0), R(1), U8(3), //
B(Return), //
},
1,
{InstanceType::ONE_BYTE_INTERNALIZED_STRING_TYPE}},
};
for (size_t i = 0; i < arraysize(snippets); i++) {
Handle<BytecodeArray> bytecode_array =
helper.MakeBytecode(snippets[i].code_snippet, "f");
CheckBytecodeArrayEqual(snippets[i], bytecode_array);
}
}
TEST(ContextVariables) {
InitializedHandleScope handle_scope;
BytecodeGeneratorHelper helper;
int closure = Register::function_closure().index();
int first_context_slot = Context::MIN_CONTEXT_SLOTS;
ExpectedSnippet<InstanceType> snippets[] = {
{"var a; return function() { a = 1; };",
1 * kPointerSize,
1,
12,
{
B(CallRuntime), U16(Runtime::kNewFunctionContext), //
R(closure), U8(1), //
B(PushContext), R(0), //
B(LdaConstant), U8(0), //
B(CreateClosure), U8(0), //
B(Return), //
},
1,
{InstanceType::SHARED_FUNCTION_INFO_TYPE}},
{"var a = 1; return function() { a = 2; };",
1 * kPointerSize,
1,
17,
{
B(CallRuntime), U16(Runtime::kNewFunctionContext), //
R(closure), U8(1), //
B(PushContext), R(0), //
B(LdaSmi8), U8(1), //
B(StaContextSlot), R(0), U8(first_context_slot), //
B(LdaConstant), U8(0), //
B(CreateClosure), U8(0), //
B(Return), //
},
1,
{InstanceType::SHARED_FUNCTION_INFO_TYPE}},
{"var a = 1; var b = 2; return function() { a = 2; b = 3 };",
1 * kPointerSize,
1,
22,
{
B(CallRuntime), U16(Runtime::kNewFunctionContext), //
R(closure), U8(1), //
B(PushContext), R(0), //
B(LdaSmi8), U8(1), //
B(StaContextSlot), R(0), U8(first_context_slot), //
B(LdaSmi8), U8(2), //
B(StaContextSlot), R(0), U8(first_context_slot + 1), //
B(LdaConstant), U8(0), //
B(CreateClosure), U8(0), //
B(Return), //
},
1,
{InstanceType::SHARED_FUNCTION_INFO_TYPE}},
{"var a; (function() { a = 2; })(); return a;",
3 * kPointerSize,
1,
24,
{
B(CallRuntime), U16(Runtime::kNewFunctionContext), //
R(closure), U8(1), //
B(PushContext), R(0), //
B(LdaUndefined), //
B(Star), R(2), //
B(LdaConstant), U8(0), //
B(CreateClosure), U8(0), //
B(Star), R(1), //
B(Call), R(1), R(2), U8(0), //
B(LdaContextSlot), R(0), U8(first_context_slot), //
B(Return), //
},
1,
{InstanceType::SHARED_FUNCTION_INFO_TYPE}},
{"'use strict'; let a = 1; { let b = 2; return function() { a + b; }; }",
4 * kPointerSize,
1,
49,
{
B(CallRuntime), U16(Runtime::kNewFunctionContext), //
R(closure), U8(1), //
B(PushContext), R(0), //
B(LdaTheHole), //
B(StaContextSlot), R(0), U8(first_context_slot), //
B(LdaSmi8), U8(1), //
B(StaContextSlot), R(0), U8(first_context_slot), //
B(LdaConstant), U8(0), //
B(Star), R(2), //
B(Ldar), R(closure), //
B(Star), R(3), //
B(CallRuntime), U16(Runtime::kPushBlockContext), R(2), U8(2), //
B(PushContext), R(1), //
B(LdaTheHole), //
B(StaContextSlot), R(1), U8(first_context_slot), //
B(LdaSmi8), U8(2), //
B(StaContextSlot), R(1), U8(first_context_slot), //
B(LdaConstant), U8(1), //
B(CreateClosure), U8(0), //
B(Return), //
// TODO(rmcilroy): Dead code after this point due to return in nested
// block - investigate eliminating this.
B(PopContext), R(0),
B(LdaUndefined), //
B(Return), //
},
2,
{InstanceType::FIXED_ARRAY_TYPE,
InstanceType::SHARED_FUNCTION_INFO_TYPE}},
};
for (size_t i = 0; i < arraysize(snippets); i++) {
Handle<BytecodeArray> bytecode_array =
helper.MakeBytecodeForFunctionBody(snippets[i].code_snippet);
CheckBytecodeArrayEqual(snippets[i], bytecode_array);
}
}
TEST(ContextParameters) {
InitializedHandleScope handle_scope;
BytecodeGeneratorHelper helper;
int closure = Register::function_closure().index();
int first_context_slot = Context::MIN_CONTEXT_SLOTS;
ExpectedSnippet<InstanceType> snippets[] = {
{"function f(arg1) { return function() { arg1 = 2; }; }",
1 * kPointerSize,
2,
17,
{
B(CallRuntime), U16(Runtime::kNewFunctionContext), //
R(closure), U8(1), //
B(PushContext), R(0), //
B(Ldar), R(helper.kLastParamIndex), //
B(StaContextSlot), R(0), U8(first_context_slot), //
B(LdaConstant), U8(0), //
B(CreateClosure), U8(0), //
B(Return), //
},
1,
{InstanceType::SHARED_FUNCTION_INFO_TYPE}},
{"function f(arg1) { var a = function() { arg1 = 2; }; return arg1; }",
2 * kPointerSize,
2,
22,
{
B(CallRuntime), U16(Runtime::kNewFunctionContext), //
R(closure), U8(1), //
B(PushContext), R(1), //
B(Ldar), R(helper.kLastParamIndex), //
B(StaContextSlot), R(1), U8(first_context_slot), //
B(LdaConstant), U8(0), //
B(CreateClosure), U8(0), //
B(Star), R(0), //
B(LdaContextSlot), R(1), U8(first_context_slot), //
B(Return), //
},
1,
{InstanceType::SHARED_FUNCTION_INFO_TYPE}},
{"function f(a1, a2, a3, a4) { return function() { a1 = a3; }; }",
1 * kPointerSize,
5,
22,
{
B(CallRuntime), U16(Runtime::kNewFunctionContext), //
R(closure), U8(1), //
B(PushContext), R(0), //
B(Ldar), R(helper.kLastParamIndex - 3), //
B(StaContextSlot), R(0), U8(first_context_slot + 1), //
B(Ldar), R(helper.kLastParamIndex -1), //
B(StaContextSlot), R(0), U8(first_context_slot), //
B(LdaConstant), U8(0), //
B(CreateClosure), U8(0), //
B(Return), //
},
1,
{InstanceType::SHARED_FUNCTION_INFO_TYPE}},
{"function f() { var self = this; return function() { self = 2; }; }",
1 * kPointerSize,
1,
17,
{
B(CallRuntime), U16(Runtime::kNewFunctionContext), //
R(closure), U8(1), //
B(PushContext), R(0), //
B(Ldar), R(helper.kLastParamIndex), //
B(StaContextSlot), R(0), U8(first_context_slot), //
B(LdaConstant), U8(0), //
B(CreateClosure), U8(0), //
B(Return), //
},
1,
{InstanceType::SHARED_FUNCTION_INFO_TYPE}},
};
for (size_t i = 0; i < arraysize(snippets); i++) {
Handle<BytecodeArray> bytecode_array =
helper.MakeBytecodeForFunction(snippets[i].code_snippet);
CheckBytecodeArrayEqual(snippets[i], bytecode_array);
}
}
TEST(OuterContextVariables) {
InitializedHandleScope handle_scope;
BytecodeGeneratorHelper helper;
int context = Register::function_context().index();
int first_context_slot = Context::MIN_CONTEXT_SLOTS;
ExpectedSnippet<InstanceType> snippets[] = {
{"function Outer() {"
" var outerVar = 1;"
" function Inner(innerArg) {"
" this.innerFunc = function() { return outerVar * innerArg; }"
" }"
" this.getInnerFunc = function() { return new Inner(1).innerFunc; }"
"}"
"var f = new Outer().getInnerFunc();",
2 * kPointerSize,
1,
20,
{
B(Ldar), R(context), //
B(Star), R(0), //
B(LdaContextSlot), R(0), U8(Context::PREVIOUS_INDEX), //
B(Star), R(0), //
B(LdaContextSlot), R(0), U8(first_context_slot), //
B(Star), R(1), //
B(LdaContextSlot), R(context), U8(first_context_slot), //
B(Mul), R(1), //
B(Return), //
}},
{"function Outer() {"
" var outerVar = 1;"
" function Inner(innerArg) {"
" this.innerFunc = function() { outerVar = innerArg; }"
" }"
" this.getInnerFunc = function() { return new Inner(1).innerFunc; }"
"}"
"var f = new Outer().getInnerFunc();",
2 * kPointerSize,
1,
21,
{
B(LdaContextSlot), R(context), U8(first_context_slot), //
B(Star), R(0), //
B(Ldar), R(context), //
B(Star), R(1), //
B(LdaContextSlot), R(1), U8(Context::PREVIOUS_INDEX), //
B(Star), R(1), //
B(Ldar), R(0), //
B(StaContextSlot), R(1), U8(first_context_slot), //
B(LdaUndefined), //
B(Return), //
}},
};
for (size_t i = 0; i < arraysize(snippets); i++) {
Handle<BytecodeArray> bytecode_array =
helper.MakeBytecodeForFunctionNoFilter(snippets[i].code_snippet);
CheckBytecodeArrayEqual(snippets[i], bytecode_array);
}
}
TEST(CountOperators) {
InitializedHandleScope handle_scope;
BytecodeGeneratorHelper helper;
Zone zone;
FeedbackVectorSpec feedback_spec(&zone);
FeedbackVectorSlot slot1 = feedback_spec.AddLoadICSlot();
FeedbackVectorSlot slot2 = feedback_spec.AddStoreICSlot();
Handle<i::TypeFeedbackVector> vector =
i::NewTypeFeedbackVector(helper.isolate(), &feedback_spec);
FeedbackVectorSpec store_feedback_spec(&zone);
FeedbackVectorSlot store_slot = store_feedback_spec.AddStoreICSlot();
Handle<i::TypeFeedbackVector> store_vector =
i::NewTypeFeedbackVector(helper.isolate(), &store_feedback_spec);
int closure = Register::function_closure().index();
int first_context_slot = Context::MIN_CONTEXT_SLOTS;
int object_literal_flags =
ObjectLiteral::kFastElements | ObjectLiteral::kDisableMementos;
int array_literal_flags =
ArrayLiteral::kDisableMementos | ArrayLiteral::kShallowElements;
ExpectedSnippet<InstanceType> snippets[] = {
{"var a = 1; return ++a;",
1 * kPointerSize,
1,
11,
{
B(LdaSmi8), U8(1), //
B(Star), R(0), //
B(Ldar), R(0), //
B(ToNumber), //
B(Inc), //
B(Star), R(0), //
B(Return), //
}},
{"var a = 1; return a++;",
2 * kPointerSize,
1,
15,
{
B(LdaSmi8), U8(1), //
B(Star), R(0), //
B(Ldar), R(0), //
B(ToNumber), //
B(Star), R(1), //
B(Inc), //
B(Star), R(0), //
B(Ldar), R(1), //
B(Return), //
}},
{"var a = 1; return --a;",
1 * kPointerSize,
1,
11,
{
B(LdaSmi8), U8(1), //
B(Star), R(0), //
B(Ldar), R(0), //
B(ToNumber), //
B(Dec), //
B(Star), R(0), //
B(Return), //
}},
{"var a = 1; return a--;",
2 * kPointerSize,
1,
15,
{
B(LdaSmi8), U8(1), //
B(Star), R(0), //
B(Ldar), R(0), //
B(ToNumber), //
B(Star), R(1), //
B(Dec), //
B(Star), R(0), //
B(Ldar), R(1), //
B(Return), //
}},
{"var a = { val: 1 }; return a.val++;",
2 * kPointerSize,
1,
22,
{
B(LdaConstant), U8(0), //
B(CreateObjectLiteral), U8(0), U8(object_literal_flags), //
B(Star), R(0), //
B(LoadICSloppy), R(0), U8(1), U8(vector->GetIndex(slot1)), //
B(ToNumber), //
B(Star), R(1), //
B(Inc), //
B(StoreICSloppy), R(0), U8(1), U8(vector->GetIndex(slot2)), //
B(Ldar), R(1), //
B(Return), //
},
2,
{InstanceType::FIXED_ARRAY_TYPE,
InstanceType::ONE_BYTE_INTERNALIZED_STRING_TYPE}},
{"var a = { val: 1 }; return --a.val;",
1 * kPointerSize,
1,
18,
{
B(LdaConstant), U8(0), //
B(CreateObjectLiteral), U8(0), U8(object_literal_flags), //
B(Star), R(0), //
B(LoadICSloppy), R(0), U8(1), U8(vector->GetIndex(slot1)), //
B(ToNumber), //
B(Dec), //
B(StoreICSloppy), R(0), U8(1), U8(vector->GetIndex(slot2)), //
B(Return), //
},
2,
{InstanceType::FIXED_ARRAY_TYPE,
InstanceType::ONE_BYTE_INTERNALIZED_STRING_TYPE}},
{"var name = 'var'; var a = { val: 1 }; return a[name]--;",
4 * kPointerSize,
1,
29,
{
B(LdaConstant), U8(0), //
B(Star), R(0), //
B(LdaConstant), U8(1), //
B(CreateObjectLiteral), U8(0), U8(object_literal_flags), //
B(Star), R(1), //
B(Ldar), R(0), //
B(Star), R(2), //
B(KeyedLoadICSloppy), R(1), U8(vector->GetIndex(slot1)), //
B(ToNumber), //
B(Star), R(3), //
B(Dec), //
B(KeyedStoreICSloppy), R(1), R(2), U8(vector->GetIndex(slot2)), //
B(Ldar), R(3), //
B(Return), //
},
2,
{InstanceType::ONE_BYTE_INTERNALIZED_STRING_TYPE,
InstanceType::FIXED_ARRAY_TYPE}},
{"var name = 'var'; var a = { val: 1 }; return ++a[name];",
3 * kPointerSize,
1,
25,
{
B(LdaConstant), U8(0), //
B(Star), R(0), //
B(LdaConstant), U8(1), //
B(CreateObjectLiteral), U8(0), U8(object_literal_flags), //
B(Star), R(1), //
B(Ldar), R(0), //
B(Star), R(2), //
B(KeyedLoadICSloppy), R(1), U8(vector->GetIndex(slot1)), //
B(ToNumber), //
B(Inc), //
B(KeyedStoreICSloppy), R(1), R(2), U8(vector->GetIndex(slot2)), //
B(Return), //
},
2,
{InstanceType::ONE_BYTE_INTERNALIZED_STRING_TYPE,
InstanceType::FIXED_ARRAY_TYPE}},
{"var a = 1; var b = function() { return a }; return ++a;",
2 * kPointerSize,
1,
27,
{
B(CallRuntime), U16(Runtime::kNewFunctionContext), R(closure), //
U8(1), //
B(PushContext), R(1), //
B(LdaSmi8), U8(1), //
B(StaContextSlot), R(1), U8(first_context_slot), //
B(LdaConstant), U8(0), //
B(CreateClosure), U8(0), //
B(Star), R(0), //
B(LdaContextSlot), R(1), U8(first_context_slot), //
B(ToNumber), //
B(Inc), //
B(StaContextSlot), R(1), U8(first_context_slot), //
B(Return), //
},
1,
{InstanceType::SHARED_FUNCTION_INFO_TYPE}},
{"var a = 1; var b = function() { return a }; return a--;",
3 * kPointerSize,
1,
31,
{
B(CallRuntime), U16(Runtime::kNewFunctionContext), R(closure), //
U8(1), //
B(PushContext), R(1), //
B(LdaSmi8), U8(1), //
B(StaContextSlot), R(1), U8(first_context_slot), //
B(LdaConstant), U8(0), //
B(CreateClosure), U8(0), //
B(Star), R(0), //
B(LdaContextSlot), R(1), U8(first_context_slot), //
B(ToNumber), //
B(Star), R(2), //
B(Dec), //
B(StaContextSlot), R(1), U8(first_context_slot), //
B(Ldar), R(2), //
B(Return), //
},
1,
{InstanceType::SHARED_FUNCTION_INFO_TYPE}},
{"var idx = 1; var a = [1, 2]; return a[idx++] = 2;",
3 * kPointerSize,
1,
26,
{
B(LdaSmi8), U8(1), //
B(Star), R(0), //
B(LdaConstant), U8(0), //
B(CreateArrayLiteral), U8(0), U8(array_literal_flags), //
B(Star), R(1), //
B(Ldar), R(0), //
B(ToNumber), //
B(Star), R(2), //
B(Inc), //
B(Star), R(0), //
B(LdaSmi8), U8(2), //
B(KeyedStoreICSloppy), R(1), R(2), //
U8(store_vector->GetIndex(store_slot)), //
B(Return), //
},
1,
{InstanceType::FIXED_ARRAY_TYPE}},
};
for (size_t i = 0; i < arraysize(snippets); i++) {
Handle<BytecodeArray> bytecode_array =
helper.MakeBytecodeForFunctionBody(snippets[i].code_snippet);
CheckBytecodeArrayEqual(snippets[i], bytecode_array);
}
}
TEST(GlobalCountOperators) {
InitializedHandleScope handle_scope;
BytecodeGeneratorHelper helper;
Zone zone;
FeedbackVectorSpec feedback_spec(&zone);
FeedbackVectorSlot slot1 = feedback_spec.AddLoadICSlot();
FeedbackVectorSlot slot2 = feedback_spec.AddStoreICSlot();
Handle<i::TypeFeedbackVector> vector =
i::NewTypeFeedbackVector(helper.isolate(), &feedback_spec);
ExpectedSnippet<const char*> snippets[] = {
{"var global = 1;\nfunction f() { return ++global; }\nf()",
0,
1,
9,
{
B(LdaGlobalSloppy), U8(0), U8(vector->GetIndex(slot1)), //
B(ToNumber), //
B(Inc), //
B(StaGlobalSloppy), U8(0), U8(vector->GetIndex(slot2)), //
B(Return), //
},
1,
{"global"}},
{"var global = 1;\nfunction f() { return global--; }\nf()",
1 * kPointerSize,
1,
13,
{
B(LdaGlobalSloppy), U8(0), U8(vector->GetIndex(slot1)), //
B(ToNumber), //
B(Star), R(0), //
B(Dec), //
B(StaGlobalSloppy), U8(0), U8(vector->GetIndex(slot2)), //
B(Ldar), R(0), //
B(Return),
},
1,
{"global"}},
{"unallocated = 1;\nfunction f() { 'use strict'; return --unallocated; }"
"f()",
0,
1,
9,
{
B(LdaGlobalStrict), U8(0), U8(vector->GetIndex(slot1)), //
B(ToNumber), //
B(Dec), //
B(StaGlobalStrict), U8(0), U8(vector->GetIndex(slot2)), //
B(Return), //
},
1,
{"unallocated"}},
{"unallocated = 1;\nfunction f() { return unallocated++; }\nf()",
1 * kPointerSize,
1,
13,
{
B(LdaGlobalSloppy), U8(0), U8(vector->GetIndex(slot1)), //
B(ToNumber), //
B(Star), R(0), //
B(Inc), //
B(StaGlobalSloppy), U8(0), U8(vector->GetIndex(slot2)), //
B(Ldar), R(0), //
B(Return),
},
1,
{"unallocated"}},
};
for (size_t i = 0; i < arraysize(snippets); i++) {
Handle<BytecodeArray> bytecode_array =
helper.MakeBytecode(snippets[i].code_snippet, "f");
CheckBytecodeArrayEqual(snippets[i], bytecode_array);
}
}
TEST(CompoundExpressions) {
InitializedHandleScope handle_scope;
BytecodeGeneratorHelper helper;
Zone zone;
int closure = Register::function_closure().index();
int first_context_slot = Context::MIN_CONTEXT_SLOTS;
FeedbackVectorSpec feedback_spec(&zone);
FeedbackVectorSlot slot1 = feedback_spec.AddLoadICSlot();
FeedbackVectorSlot slot2 = feedback_spec.AddStoreICSlot();
Handle<i::TypeFeedbackVector> vector =
i::NewTypeFeedbackVector(helper.isolate(), &feedback_spec);
int object_literal_flags =
ObjectLiteral::kFastElements | ObjectLiteral::kDisableMementos;
ExpectedSnippet<InstanceType> snippets[] = {
{"var a = 1; a += 2;",
1 * kPointerSize,
1,
12,
{
B(LdaSmi8), U8(1), //
B(Star), R(0), //
B(LdaSmi8), U8(2), //
B(Add), R(0), //
B(Star), R(0), //
B(LdaUndefined), //
B(Return), //
}},
{"var a = 1; a /= 2;",
1 * kPointerSize,
1,
12,
{
B(LdaSmi8), U8(1), //
B(Star), R(0), //
B(LdaSmi8), U8(2), //
B(Div), R(0), //
B(Star), R(0), //
B(LdaUndefined), //
B(Return), //
}},
{"var a = { val: 2 }; a.name *= 2;",
2 * kPointerSize,
1,
23,
{
B(LdaConstant), U8(0), //
B(CreateObjectLiteral), U8(0), U8(object_literal_flags), //
B(Star), R(0), //
B(LoadICSloppy), R(0), U8(1), U8(vector->GetIndex(slot1)), //
B(Star), R(1), //
B(LdaSmi8), U8(2), //
B(Mul), R(1), //
B(StoreICSloppy), R(0), U8(1), U8(vector->GetIndex(slot2)), //
B(LdaUndefined), //
B(Return), //
},
2,
{InstanceType::FIXED_ARRAY_TYPE,
InstanceType::ONE_BYTE_INTERNALIZED_STRING_TYPE}},
{"var a = { 1: 2 }; a[1] ^= 2;",
3 * kPointerSize,
1,
26,
{
B(LdaConstant), U8(0), //
B(CreateObjectLiteral), U8(0), U8(object_literal_flags), //
B(Star), R(0), //
B(LdaSmi8), U8(1), //
B(Star), R(1), //
B(KeyedLoadICSloppy), R(0), U8(vector->GetIndex(slot1)), //
B(Star), R(2), //
B(LdaSmi8), U8(2), //
B(BitwiseXor), R(2), //
B(KeyedStoreICSloppy), R(0), R(1), U8(vector->GetIndex(slot2)), //
B(LdaUndefined), //
B(Return), //
},
1,
{InstanceType::FIXED_ARRAY_TYPE}},
{"var a = 1; (function f() { return a; }); a |= 24;",
2 * kPointerSize,
1,
30,
{
B(CallRuntime), U16(Runtime::kNewFunctionContext), R(closure), //
U8(1), //
B(PushContext), R(0), //
B(LdaSmi8), U8(1), //
B(StaContextSlot), R(0), U8(first_context_slot), //
B(LdaConstant), U8(0), //
B(CreateClosure), U8(0), //
B(LdaContextSlot), R(0), U8(first_context_slot), //
B(Star), R(1), //
B(LdaSmi8), U8(24), //
B(BitwiseOr), R(1), //
B(StaContextSlot), R(0), U8(first_context_slot), //
B(LdaUndefined), //
B(Return), //
},
1,
{InstanceType::SHARED_FUNCTION_INFO_TYPE}},
};
for (size_t i = 0; i < arraysize(snippets); i++) {
Handle<BytecodeArray> bytecode_array =
helper.MakeBytecodeForFunctionBody(snippets[i].code_snippet);
CheckBytecodeArrayEqual(snippets[i], bytecode_array);
}
}
TEST(GlobalCompoundExpressions) {
InitializedHandleScope handle_scope;
BytecodeGeneratorHelper helper;
Zone zone;
FeedbackVectorSpec feedback_spec(&zone);
FeedbackVectorSlot slot1 = feedback_spec.AddLoadICSlot();
FeedbackVectorSlot slot2 = feedback_spec.AddStoreICSlot();
Handle<i::TypeFeedbackVector> vector =
i::NewTypeFeedbackVector(helper.isolate(), &feedback_spec);
ExpectedSnippet<const char*> snippets[] = {
{"var global = 1;\nfunction f() { return global &= 1; }\nf()",
1 * kPointerSize,
1,
13,
{
B(LdaGlobalSloppy), U8(0), U8(vector->GetIndex(slot1)), //
B(Star), R(0), //
B(LdaSmi8), U8(1), //
B(BitwiseAnd), R(0), //
B(StaGlobalSloppy), U8(0), U8(vector->GetIndex(slot2)), //
B(Return), //
},
1,
{"global"}},
{"unallocated = 1;\nfunction f() { return unallocated += 1; }\nf()",
1 * kPointerSize,
1,
13,
{
B(LdaGlobalSloppy), U8(0), U8(vector->GetIndex(slot1)), //
B(Star), R(0), //
B(LdaSmi8), U8(1), //
B(Add), R(0), //
B(StaGlobalSloppy), U8(0), U8(vector->GetIndex(slot2)), //
B(Return), //
},
1,
{"unallocated"}},
};
for (size_t i = 0; i < arraysize(snippets); i++) {
Handle<BytecodeArray> bytecode_array =
helper.MakeBytecode(snippets[i].code_snippet, "f");
CheckBytecodeArrayEqual(snippets[i], bytecode_array);
}
}
TEST(CreateArguments) {
InitializedHandleScope handle_scope;
BytecodeGeneratorHelper helper;
Zone zone;
int closure = Register::function_closure().index();
int first_context_slot = Context::MIN_CONTEXT_SLOTS;
FeedbackVectorSpec feedback_spec(&zone);
FeedbackVectorSlot slot = feedback_spec.AddKeyedLoadICSlot();
Handle<i::TypeFeedbackVector> vector =
i::NewTypeFeedbackVector(helper.isolate(), &feedback_spec);
ExpectedSnippet<const char*> snippets[] = {
{"function f() { return arguments; }",
1 * kPointerSize,
1,
6,
{
B(CreateMappedArguments), //
B(Star), R(0), //
B(Ldar), R(0), //
B(Return), //
}},
{"function f() { return arguments[0]; }",
1 * kPointerSize,
1,
8,
{
B(CreateMappedArguments), //
B(Star), R(0), //
B(LdaZero), //
B(KeyedLoadICSloppy), R(0), U8(vector->GetIndex(slot)), //
B(Return), //
}},
{"function f() { 'use strict'; return arguments; }",
1 * kPointerSize,
1,
6,
{
B(CreateUnmappedArguments), //
B(Star), R(0), //
B(Ldar), R(0), //
B(Return), //
}},
{"function f(a) { return arguments[0]; }",
2 * kPointerSize,
2,
20,
{
B(CallRuntime), U16(Runtime::kNewFunctionContext), R(closure), //
U8(1), //
B(PushContext), R(1), //
B(Ldar), R(BytecodeGeneratorHelper::kLastParamIndex), //
B(StaContextSlot), R(1), U8(first_context_slot), //
B(CreateMappedArguments), //
B(Star), R(0), //
B(LdaZero), //
B(KeyedLoadICSloppy), R(0), U8(vector->GetIndex(slot)), //
B(Return), //
}},
{"function f(a, b, c) { return arguments; }",
2 * kPointerSize,
4,
28,
{
B(CallRuntime), U16(Runtime::kNewFunctionContext), R(closure), //
U8(1), //
B(PushContext), R(1), //
B(Ldar), R(BytecodeGeneratorHelper::kLastParamIndex - 2), //
B(StaContextSlot), R(1), U8(first_context_slot + 2), //
B(Ldar), R(BytecodeGeneratorHelper::kLastParamIndex - 1), //
B(StaContextSlot), R(1), U8(first_context_slot + 1), //
B(Ldar), R(BytecodeGeneratorHelper::kLastParamIndex), //
B(StaContextSlot), R(1), U8(first_context_slot), //
B(CreateMappedArguments), //
B(Star), R(0), //
B(Ldar), R(0), //
B(Return), //
}},
{"function f(a, b, c) { 'use strict'; return arguments; }",
1 * kPointerSize,
4,
6,
{
B(CreateUnmappedArguments), //
B(Star), R(0), //
B(Ldar), R(0), //
B(Return), //
}},
};
for (size_t i = 0; i < arraysize(snippets); i++) {
Handle<BytecodeArray> bytecode_array =
helper.MakeBytecodeForFunction(snippets[i].code_snippet);
CheckBytecodeArrayEqual(snippets[i], bytecode_array);
}
}
TEST(IllegalRedeclaration) {
InitializedHandleScope handle_scope;
BytecodeGeneratorHelper helper;
ExpectedSnippet<const char*> snippets[] = {
{"const a = 1; { var a = 2; }",
3 * kPointerSize,
1,
14,
{
B(LdaSmi8), U8(MessageTemplate::kVarRedeclaration), //
B(Star), R(1), //
B(LdaConstant), U8(0), //
B(Star), R(2), //
B(CallRuntime), U16(Runtime::kNewSyntaxError), R(1), U8(2), //
B(Throw), //
},
1,
{"a"}},
};
for (size_t i = 0; i < arraysize(snippets); i++) {
Handle<BytecodeArray> bytecode_array =
helper.MakeBytecodeForFunctionBody(snippets[i].code_snippet);
CheckBytecodeArrayEqual(snippets[i], bytecode_array);
}
}
TEST(ForIn) {
InitializedHandleScope handle_scope;
BytecodeGeneratorHelper helper;
Zone zone;
int simple_flags =
ArrayLiteral::kDisableMementos | ArrayLiteral::kShallowElements;
int deep_elements_flags =
ObjectLiteral::kFastElements | ObjectLiteral::kDisableMementos;
FeedbackVectorSpec feedback_spec(&zone);
feedback_spec.AddStoreICSlot();
FeedbackVectorSlot slot2 = feedback_spec.AddStoreICSlot();
FeedbackVectorSlot slot3 = feedback_spec.AddStoreICSlot();
FeedbackVectorSlot slot4 = feedback_spec.AddStoreICSlot();
Handle<i::TypeFeedbackVector> vector =
i::NewTypeFeedbackVector(helper.isolate(), &feedback_spec);
ExpectedSnippet<InstanceType> snippets[] = {
{"for (var p in null) {}",
2 * kPointerSize,
1,
2,
{B(LdaUndefined), B(Return)},
0},
{"for (var p in undefined) {}",
2 * kPointerSize,
1,
2,
{B(LdaUndefined), B(Return)},
0},
{"var x = 'potatoes';\n"
"for (var p in x) { return p; }",
5 * kPointerSize,
1,
52,
{
B(LdaConstant), U8(0), //
B(Star), R(1), //
B(Ldar), R(1), //
B(JumpIfUndefined), U8(44), //
B(JumpIfNull), U8(42), //
B(ToObject), //
B(Star), R(3), //
B(CallRuntime), U16(Runtime::kGetPropertyNamesFast), R(3), U8(1), //
B(ForInPrepare), R(3), //
B(JumpIfUndefined), U8(30), //
B(Star), R(4), //
B(LdaZero), //
B(Star), R(3), //
B(ForInDone), R(4), //
B(JumpIfTrue), U8(21), //
B(ForInNext), R(4), R(3), //
B(JumpIfUndefined), U8(11), //
B(Star), R(0), //
B(Ldar), R(0), //
B(Star), R(2), //
B(Ldar), R(2), //
B(Return), //
B(Ldar), R(3), //
B(Inc), //
B(Jump), U8(-23), //
B(LdaUndefined), //
B(Return), //
},
1,
{InstanceType::ONE_BYTE_INTERNALIZED_STRING_TYPE}},
{"var x = 0;\n"
"for (var p in [1,2,3]) { x += p; }",
5 * kPointerSize,
1,
57,
{
B(LdaZero), //
B(Star), R(1), //
B(LdaConstant), U8(0), //
B(CreateArrayLiteral), U8(0), U8(simple_flags), //
B(JumpIfUndefined), U8(47), //
B(JumpIfNull), U8(45), //
B(ToObject), //
B(Star), R(3), //
B(CallRuntime), U16(Runtime::kGetPropertyNamesFast), R(3), U8(1), //
B(ForInPrepare), R(3), //
B(JumpIfUndefined), U8(33), //
B(Star), R(4), //
B(LdaZero), //
B(Star), R(3), //
B(ForInDone), R(4), //
B(JumpIfTrue), U8(24), //
B(ForInNext), R(4), R(3), //
B(JumpIfUndefined), U8(14), //
B(Star), R(0), //
B(Ldar), R(0), //
B(Star), R(2), //
B(Ldar), R(2), //
B(Add), R(1), //
B(Star), R(1), //
B(Ldar), R(3), //
B(Inc), //
B(Jump), U8(-26), //
B(LdaUndefined), //
B(Return), //
},
1,
{InstanceType::FIXED_ARRAY_TYPE}},
{"var x = { 'a': 1, 'b': 2 };\n"
"for (x['a'] in [10, 20, 30]) {\n"
" if (x['a'] == 10) continue;\n"
" if (x['a'] == 20) break;\n"
"}",
4 * kPointerSize,
1,
83,
{
B(LdaConstant), U8(0), //
B(CreateObjectLiteral), U8(0), U8(deep_elements_flags), //
B(Star), R(0), //
B(LdaConstant), U8(1), //
B(CreateArrayLiteral), U8(1), U8(simple_flags), //
B(JumpIfUndefined), U8(69), //
B(JumpIfNull), U8(67), //
B(ToObject), //
B(Star), R(1), //
B(CallRuntime), U16(Runtime::kGetPropertyNamesFast), R(1), U8(1), //
B(ForInPrepare), R(1), //
B(JumpIfUndefined), U8(55), //
B(Star), R(2), //
B(LdaZero), //
B(Star), R(1), //
B(ForInDone), R(2), //
B(JumpIfTrue), U8(46), //
B(ForInNext), R(2), R(1), //
B(JumpIfUndefined), U8(36), //
B(Star), R(3), //
B(StoreICSloppy), R(0), U8(2), U8(vector->GetIndex(slot4)), //
B(LoadICSloppy), R(0), U8(2), U8(vector->GetIndex(slot2)), //
B(Star), R(3), //
B(LdaSmi8), U8(10), //
B(TestEqual), R(3), //
B(JumpIfFalse), U8(4), //
B(Jump), U8(16), //
B(LoadICSloppy), R(0), U8(2), U8(vector->GetIndex(slot3)), //
B(Star), R(3), //
B(LdaSmi8), U8(20), //
B(TestEqual), R(3), //
B(JumpIfFalse), U8(4), //
B(Jump), U8(7), //
B(Ldar), R(1), //
B(Inc), //
B(Jump), U8(-48), //
B(LdaUndefined), //
B(Return), //
},
3,
{InstanceType::FIXED_ARRAY_TYPE, InstanceType::FIXED_ARRAY_TYPE,
InstanceType::ONE_BYTE_INTERNALIZED_STRING_TYPE}},
{"var x = [ 10, 11, 12 ] ;\n"
"for (x[0] in [1,2,3]) { return x[3]; }",
5 * kPointerSize,
1,
66,
{
B(LdaConstant), U8(0), //
B(CreateArrayLiteral), U8(0), U8(simple_flags), //
B(Star), R(0), //
B(LdaConstant), U8(1), //
B(CreateArrayLiteral), U8(1), U8(simple_flags), //
B(JumpIfUndefined), U8(52), //
B(JumpIfNull), U8(50), //
B(ToObject), //
B(Star), R(1), //
B(CallRuntime), U16(Runtime::kGetPropertyNamesFast), R(1), U8(1), //
B(ForInPrepare), R(1), //
B(JumpIfUndefined), U8(38), //
B(Star), R(2), //
B(LdaZero), //
B(Star), R(1), //
B(ForInDone), R(2), //
B(JumpIfTrue), U8(29), //
B(ForInNext), R(2), R(1), //
B(JumpIfUndefined), U8(19), //
B(Star), R(3), //
B(LdaZero), //
B(Star), R(4), //
B(Ldar), R(3), //
B(KeyedStoreICSloppy), R(0), R(4), U8(vector->GetIndex(slot3)), //
B(LdaSmi8), U8(3), //
B(KeyedLoadICSloppy), R(0), U8(vector->GetIndex(slot2)), //
B(Return), //
B(Ldar), R(1), //
B(Inc), //
B(Jump), U8(-31), //
B(LdaUndefined), //
B(Return), //
},
2,
{InstanceType::FIXED_ARRAY_TYPE, InstanceType::FIXED_ARRAY_TYPE}},
};
for (size_t i = 0; i < arraysize(snippets); i++) {
Handle<BytecodeArray> bytecode_array =
helper.MakeBytecodeForFunctionBody(snippets[i].code_snippet);
CheckBytecodeArrayEqual(snippets[i], bytecode_array);
}
}
TEST(Conditional) {
InitializedHandleScope handle_scope;
BytecodeGeneratorHelper helper;
ExpectedSnippet<int> snippets[] = {
{"return 1 ? 2 : 3;",
0,
1,
12,
{
B(LdaSmi8), U8(1), //
B(ToBoolean), //
B(JumpIfFalse), U8(6), //
B(LdaSmi8), U8(2), //
B(Jump), U8(4), //
B(LdaSmi8), U8(3), //
B(Return), //
}},
{"return 1 ? 2 ? 3 : 4 : 5;",
0,
1,
21,
{
B(LdaSmi8), U8(1), //
B(ToBoolean), //
B(JumpIfFalse), U8(15), //
B(LdaSmi8), U8(2), //
B(ToBoolean), //
B(JumpIfFalse), U8(6), //
B(LdaSmi8), U8(3), //
B(Jump), U8(4), //
B(LdaSmi8), U8(4), //
B(Jump), U8(4), //
B(LdaSmi8), U8(5), //
B(Return), //
}},
};
for (size_t i = 0; i < arraysize(snippets); i++) {
Handle<BytecodeArray> bytecode_array =
helper.MakeBytecodeForFunctionBody(snippets[i].code_snippet);
CheckBytecodeArrayEqual(snippets[i], bytecode_array);
}
}
TEST(Switch) {
InitializedHandleScope handle_scope;
BytecodeGeneratorHelper helper;
ExpectedSnippet<int> snippets[] = {
{"var a = 1;\n"
"switch(a) {\n"
" case 1: return 2;\n"
" case 2: return 3;\n"
"}\n",
2 * kPointerSize,
1,
30,
{
B(LdaSmi8), U8(1), //
B(Star), R(1), // The tag variable is allocated as a
B(Ldar), R(1), // local by the parser, hence this
B(Star), R(0), // strange shuffling.
B(LdaSmi8), U8(1), //
B(TestEqualStrict), R(0), //
B(JumpIfTrue), U8(10), //
B(LdaSmi8), U8(2), //
B(TestEqualStrict), R(0), //
B(JumpIfTrue), U8(7), //
B(Jump), U8(8), //
B(LdaSmi8), U8(2), //
B(Return), //
B(LdaSmi8), U8(3), //
B(Return), //
B(LdaUndefined), //
B(Return), //
}},
{"var a = 1;\n"
"switch(a) {\n"
" case 1: a = 2; break;\n"
" case 2: a = 3; break;\n"
"}\n",
2 * kPointerSize,
1,
36,
{
B(LdaSmi8), U8(1), //
B(Star), R(1), //
B(Ldar), R(1), //
B(Star), R(0), //
B(LdaSmi8), U8(1), //
B(TestEqualStrict), R(0), //
B(JumpIfTrue), U8(10), //
B(LdaSmi8), U8(2), //
B(TestEqualStrict), R(0), //
B(JumpIfTrue), U8(10), //
B(Jump), U8(14), //
B(LdaSmi8), U8(2), //
B(Star), R(1), //
B(Jump), U8(8), //
B(LdaSmi8), U8(3), //
B(Star), R(1), //
B(Jump), U8(2), //
B(LdaUndefined), //
B(Return), //
}},
{"var a = 1;\n"
"switch(a) {\n"
" case 1: a = 2; // fall-through\n"
" case 2: a = 3; break;\n"
"}\n",
2 * kPointerSize,
1,
34,
{
B(LdaSmi8), U8(1), //
B(Star), R(1), //
B(Ldar), R(1), //
B(Star), R(0), //
B(LdaSmi8), U8(1), //
B(TestEqualStrict), R(0), //
B(JumpIfTrue), U8(10), //
B(LdaSmi8), U8(2), //
B(TestEqualStrict), R(0), //
B(JumpIfTrue), U8(8), //
B(Jump), U8(12), //
B(LdaSmi8), U8(2), //
B(Star), R(1), //
B(LdaSmi8), U8(3), //
B(Star), R(1), //
B(Jump), U8(2), //
B(LdaUndefined), //
B(Return), //
}},
{"var a = 1;\n"
"switch(a) {\n"
" case 2: break;\n"
" case 3: break;\n"
" default: a = 1; break;\n"
"}\n",
2 * kPointerSize,
1,
34,
{
B(LdaSmi8), U8(1), //
B(Star), R(1), //
B(Ldar), R(1), //
B(Star), R(0), //
B(LdaSmi8), U8(2), //
B(TestEqualStrict), R(0), //
B(JumpIfTrue), U8(10), //
B(LdaSmi8), U8(3), //
B(TestEqualStrict), R(0), //
B(JumpIfTrue), U8(6), //
B(Jump), U8(6), //
B(Jump), U8(10), //
B(Jump), U8(8), //
B(LdaSmi8), U8(1), //
B(Star), R(1), //
B(Jump), U8(2), //
B(LdaUndefined), //
B(Return), //
}},
{"var a = 1;\n"
"switch(typeof(a)) {\n"
" case 2: a = 1; break;\n"
" case 3: a = 2; break;\n"
" default: a = 3; break;\n"
"}\n",
2 * kPointerSize,
1,
43,
{
B(LdaSmi8), U8(1), //
B(Star), R(1), //
B(Ldar), R(1), //
B(TypeOf), //
B(Star), R(0), //
B(LdaSmi8), U8(2), //
B(TestEqualStrict), R(0), //
B(JumpIfTrue), U8(10), //
B(LdaSmi8), U8(3), //
B(TestEqualStrict), R(0), //
B(JumpIfTrue), U8(10), //
B(Jump), U8(14), //
B(LdaSmi8), U8(1), //
B(Star), R(1), //
B(Jump), U8(14), //
B(LdaSmi8), U8(2), //
B(Star), R(1), //
B(Jump), U8(8), //
B(LdaSmi8), U8(3), //
B(Star), R(1), //
B(Jump), U8(2), //
B(LdaUndefined), //
B(Return), //
}},
{"var a = 1;\n"
"switch(a) {\n"
" case typeof(a): a = 1; break;\n"
" default: a = 2; break;\n"
"}\n",
2 * kPointerSize,
1,
31,
{
B(LdaSmi8), U8(1), //
B(Star), R(1), //
B(Ldar), R(1), //
B(Star), R(0), //
B(Ldar), R(1), //
B(TypeOf), //
B(TestEqualStrict), R(0), //
B(JumpIfTrue), U8(4), //
B(Jump), U8(8), //
B(LdaSmi8), U8(1), //
B(Star), R(1), //
B(Jump), U8(8), //
B(LdaSmi8), U8(2), //
B(Star), R(1), //
B(Jump), U8(2), //
B(LdaUndefined), //
B(Return), //
}},
{"var a = 1;\n"
"switch(a) {\n"
" case 1:\n" REPEAT_64(SPACE, " a = 2;")
"break;\n"
" case 2: a = 3; break;"
"}\n",
2 * kPointerSize,
1,
288,
{
B(LdaSmi8), U8(1), //
B(Star), R(1), //
B(Ldar), R(1), //
B(Star), R(0), //
B(LdaSmi8), U8(1), //
B(TestEqualStrict), R(0), //
B(JumpIfTrue), U8(10), //
B(LdaSmi8), U8(2), //
B(TestEqualStrict), R(0), //
B(JumpIfTrueConstant), U8(0), //
B(JumpConstant), U8(1), //
REPEAT_64(COMMA, //
B(LdaSmi8), U8(2), //
B(Star), R(1)), //
B(Jump), U8(8), //
B(LdaSmi8), U8(3), //
B(Star), R(1), //
B(Jump), U8(2), //
B(LdaUndefined), //
B(Return), //
},
2,
{262, 266}},
{"var a = 1;\n"
"switch(a) {\n"
" case 1: \n"
" switch(a + 1) {\n"
" case 2 : a = 1; break;\n"
" default : a = 2; break;\n"
" } // fall-through\n"
" case 2: a = 3;\n"
"}\n",
3 * kPointerSize,
1,
54,
{
B(LdaSmi8), U8(1), //
B(Star), R(2), //
B(Ldar), R(2), //
B(Star), R(0), //
B(LdaSmi8), U8(1), //
B(TestEqualStrict), R(0), //
B(JumpIfTrue), U8(10), //
B(LdaSmi8), U8(2), //
B(TestEqualStrict), R(0), //
B(JumpIfTrue), U8(30), //
B(Jump), U8(32), //
B(LdaSmi8), U8(1), //
B(Add), R(2), //
B(Star), R(1), //
B(LdaSmi8), U8(2), //
B(TestEqualStrict), R(1), //
B(JumpIfTrue), U8(4), //
B(Jump), U8(8), //
B(LdaSmi8), U8(1), //
B(Star), R(2), //
B(Jump), U8(8), //
B(LdaSmi8), U8(2), //
B(Star), R(2), //
B(Jump), U8(2), //
B(LdaSmi8), U8(3), //
B(Star), R(2), //
B(LdaUndefined), //
B(Return), //
}},
};
for (size_t i = 0; i < arraysize(snippets); i++) {
Handle<BytecodeArray> bytecode_array =
helper.MakeBytecodeForFunctionBody(snippets[i].code_snippet);
CheckBytecodeArrayEqual(snippets[i], bytecode_array);
}
}
} // namespace interpreter
} // namespace internal
} // namespace v8