8c7ae31456
Design doc: https://docs.google.com/document/d/1ZU6rCvF2YHBGMLujWqqaxlPsjFfjKDE9C3-EugfdlAE/edit Changes from the design doc: - Changed to use 'class' declarations rather than 'type' declarations for things that need instance types but whose layout is not known to Torque. These declarations end with a semicolon rather than having a full set of methods and fields surrounded by {}. If the class's name should not be treated as a class name in generated output (because it's actually a template, or doesn't exist at all), we use the standard 'generates' clause to declare the most appropriate C++ class. - Removed @instanceTypeName. - @highestInstanceType became @highestInstanceTypeWithinParentClassRange to indicate a semantic change: it no longer denotes the highest instance type globally, but only within the range of values for its immediate parent class. This lets us use it for Oddball, which is expected to be the highest primitive type. - Added new abstract classes JSCustomElementsObject and JSSpecialObject to help with some range checks. - Added @lowestInstanceTypeWithinParentClassRange so we can move the new classes JSCustomElementsObject and JSSpecialObject to the beginning of the JSObject range. This seems like the least-brittle way to establish ranges that also include JSProxy (and these ranges are verified with static assertions in instance-type.h). - Renamed @instanceTypeValue to @apiExposedInstanceTypeValue. - Renamed @instanceTypeFlags to @reserveBitsInInstanceType. This change introduces the new annotations and adds the ability for Torque to assign instance types that satisfy those annotations. Torque now emits two new macros: - TORQUE_ASSIGNED_INSTANCE_TYPES, which is used to define the InstanceType enumeration - TORQUE_ASSIGNED_INSTANCE_TYPE_LIST, which replaces the non-String parts of INSTANCE_TYPE_LIST The design document mentions a couple of other macro lists that could easily be replaced, but I'd like to defer those to a subsequent checkin because this one is already pretty large. Bug: v8:7793 Change-Id: Ie71d93a9d5b610e62be0ffa3bb36180c3357a6e8 Reviewed-on: https://chromium-review.googlesource.com/c/v8/v8/+/1757094 Commit-Queue: Seth Brenith <seth.brenith@microsoft.com> Reviewed-by: Tobias Tebbi <tebbi@chromium.org> Reviewed-by: Jakob Gruber <jgruber@chromium.org> Reviewed-by: Sathya Gunasekaran <gsathya@chromium.org> Cr-Commit-Position: refs/heads/master@{#64258}
184 lines
6.7 KiB
C++
184 lines
6.7 KiB
C++
// Copyright 2016 the V8 project authors. All rights reserved.
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file.
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#include <cmath>
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#include <iostream>
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#include <limits>
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#include "src/api/api-inl.h"
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#include "src/codegen/compiler.h"
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#include "src/objects/hash-table-inl.h"
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#include "src/objects/objects-inl.h"
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#include "src/objects/objects.h"
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#include "test/unittests/test-utils.h"
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#include "testing/gtest/include/gtest/gtest.h"
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namespace v8 {
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namespace internal {
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namespace {
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bool IsInStringInstanceTypeList(InstanceType instance_type) {
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switch (instance_type) {
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#define ASSERT_INSTANCE_TYPE(type, ...) \
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STATIC_ASSERT(InstanceType::type < InstanceType::FIRST_NONSTRING_TYPE);
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STRING_TYPE_LIST(ASSERT_INSTANCE_TYPE)
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#undef ASSERT_INSTANCE_TYPE
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#define TEST_INSTANCE_TYPE(type, ...) case InstanceType::type:
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STRING_TYPE_LIST(TEST_INSTANCE_TYPE)
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#undef TEST_INSTANCE_TYPE
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return true;
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default:
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EXPECT_LE(InstanceType::FIRST_NONSTRING_TYPE, instance_type);
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return false;
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}
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}
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void CheckOneInstanceType(InstanceType instance_type) {
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if (IsInStringInstanceTypeList(instance_type)) {
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EXPECT_TRUE((instance_type & kIsNotStringMask) == kStringTag)
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<< "Failing IsString mask check for " << instance_type;
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} else {
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EXPECT_FALSE((instance_type & kIsNotStringMask) == kStringTag)
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<< "Failing !IsString mask check for " << instance_type;
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}
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}
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} // namespace
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TEST(Object, InstanceTypeList) {
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#define TEST_INSTANCE_TYPE(type) CheckOneInstanceType(InstanceType::type);
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INSTANCE_TYPE_LIST(TEST_INSTANCE_TYPE)
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#undef TEST_INSTANCE_TYPE
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}
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TEST(Object, InstanceTypeListOrder) {
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int current = 0;
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int last = -1;
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InstanceType current_type = static_cast<InstanceType>(current);
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EXPECT_EQ(current_type, InstanceType::FIRST_TYPE);
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EXPECT_EQ(current_type, InstanceType::INTERNALIZED_STRING_TYPE);
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#define TEST_INSTANCE_TYPE(type) \
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current_type = InstanceType::type; \
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current = static_cast<int>(current_type); \
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if (current > static_cast<int>(LAST_NAME_TYPE)) { \
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EXPECT_LE(last + 1, current); \
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} \
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EXPECT_LT(last, current) << " INSTANCE_TYPE_LIST is not ordered: " \
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<< "last = " << static_cast<InstanceType>(last) \
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<< " vs. current = " << current_type; \
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last = current;
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// Only test hand-written portion of instance type list. The generated portion
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// doesn't run the same risk of getting out of order, and it does emit type
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// names out of numerical order in one case: JS_OBJECT_TYPE is emitted before
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// its subclass types, because types are emitted in depth-first pre-order
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// traversal order, and some of its subclass types are numerically earlier.
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INSTANCE_TYPE_LIST_BASE(TEST_INSTANCE_TYPE)
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#undef TEST_INSTANCE_TYPE
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}
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TEST(Object, StructListOrder) {
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int current = static_cast<int>(InstanceType::FIRST_STRUCT_TYPE);
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int last = current - 1;
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ASSERT_LT(0, last);
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InstanceType current_type = static_cast<InstanceType>(current);
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#define TEST_STRUCT(TYPE, class, name) \
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current_type = InstanceType::TYPE; \
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current = static_cast<int>(current_type); \
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EXPECT_LE(last + 1, current) \
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<< " STRUCT_LIST is not ordered: " \
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<< " last = " << static_cast<InstanceType>(last) \
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<< " vs. current = " << current_type; \
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last = current;
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// Only test the _BASE portion (the hand-coded part). Note that the values are
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// not necessarily consecutive because some Structs that need special
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// handling, such as those that have multiple Map instances associated, are
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// omitted from this list.
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STRUCT_LIST_GENERATOR_BASE(STRUCT_LIST_ADAPTER, TEST_STRUCT)
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#undef TEST_STRUCT
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}
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using ObjectWithIsolate = TestWithIsolate;
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TEST_F(ObjectWithIsolate, DictionaryGrowth) {
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Handle<NumberDictionary> dict = NumberDictionary::New(isolate(), 1);
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Handle<Object> value = isolate()->factory()->null_value();
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PropertyDetails details = PropertyDetails::Empty();
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// This test documents the expected growth behavior of a dictionary getting
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// elements added to it one by one.
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STATIC_ASSERT(HashTableBase::kMinCapacity == 4);
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uint32_t i = 1;
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// 3 elements fit into the initial capacity.
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for (; i <= 3; i++) {
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dict = NumberDictionary::Add(isolate(), dict, i, value, details);
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CHECK_EQ(4, dict->Capacity());
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}
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// 4th element triggers growth.
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DCHECK_EQ(4, i);
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for (; i <= 5; i++) {
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dict = NumberDictionary::Add(isolate(), dict, i, value, details);
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CHECK_EQ(8, dict->Capacity());
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}
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// 6th element triggers growth.
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DCHECK_EQ(6, i);
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for (; i <= 11; i++) {
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dict = NumberDictionary::Add(isolate(), dict, i, value, details);
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CHECK_EQ(16, dict->Capacity());
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}
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// 12th element triggers growth.
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DCHECK_EQ(12, i);
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for (; i <= 21; i++) {
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dict = NumberDictionary::Add(isolate(), dict, i, value, details);
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CHECK_EQ(32, dict->Capacity());
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}
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// 22nd element triggers growth.
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DCHECK_EQ(22, i);
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for (; i <= 43; i++) {
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dict = NumberDictionary::Add(isolate(), dict, i, value, details);
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CHECK_EQ(64, dict->Capacity());
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}
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// 44th element triggers growth.
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DCHECK_EQ(44, i);
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for (; i <= 50; i++) {
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dict = NumberDictionary::Add(isolate(), dict, i, value, details);
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CHECK_EQ(128, dict->Capacity());
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}
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// If we grow by larger chunks, the next (sufficiently big) power of 2 is
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// chosen as the capacity.
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dict = NumberDictionary::New(isolate(), 1);
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dict = NumberDictionary::EnsureCapacity(isolate(), dict, 65);
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CHECK_EQ(128, dict->Capacity());
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dict = NumberDictionary::New(isolate(), 1);
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dict = NumberDictionary::EnsureCapacity(isolate(), dict, 30);
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CHECK_EQ(64, dict->Capacity());
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}
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TEST_F(TestWithNativeContext, EmptyFunctionScopeInfo) {
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// Check that the empty_function has a properly set up ScopeInfo.
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Handle<JSFunction> function = RunJS<JSFunction>("(function(){})");
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Handle<ScopeInfo> scope_info(function->shared().scope_info(),
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function->GetIsolate());
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Handle<ScopeInfo> empty_function_scope_info(
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isolate()->empty_function()->shared().scope_info(),
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function->GetIsolate());
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EXPECT_EQ(scope_info->length(), empty_function_scope_info->length());
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EXPECT_EQ(scope_info->Flags(), empty_function_scope_info->Flags());
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EXPECT_EQ(scope_info->ParameterCount(),
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empty_function_scope_info->ParameterCount());
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EXPECT_EQ(scope_info->ContextLocalCount(),
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empty_function_scope_info->ContextLocalCount());
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}
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} // namespace internal
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} // namespace v8
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