src/v8/test/unittests/object-unittest.cc - cobalt - Git at Google

 // Copyright 2016 the V8 project authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include <cmath>
 #include <iostream>
 #include <limits>

 #include "src/objects-inl.h"
 #include "src/objects.h"
 #include "test/unittests/test-utils.h"

 #include "testing/gtest/include/gtest/gtest.h"

 namespace v8 {
 namespace internal {

 namespace {

 bool IsInStringInstanceTypeList(InstanceType instance_type) {
   switch (instance_type) {
 #define TEST_INSTANCE_TYPE(type, ...) \
   case InstanceType::type:            \
     STATIC_ASSERT(InstanceType::type < InstanceType::FIRST_NONSTRING_TYPE);

     STRING_TYPE_LIST(TEST_INSTANCE_TYPE)
 #undef TEST_INSTANCE_TYPE
     return true;
     default:
       EXPECT_LE(InstanceType::FIRST_NONSTRING_TYPE, instance_type);
       return false;
   }
 }

 void CheckOneInstanceType(InstanceType instance_type) {
   if (IsInStringInstanceTypeList(instance_type)) {
     EXPECT_TRUE((instance_type & kIsNotStringMask) == kStringTag)
         << "Failing IsString mask check for " << instance_type;
   } else {
     EXPECT_FALSE((instance_type & kIsNotStringMask) == kStringTag)
         << "Failing !IsString mask check for " << instance_type;
   }
 }

 }  // namespace

 TEST(Object, InstanceTypeList) {
 #define TEST_INSTANCE_TYPE(type) CheckOneInstanceType(InstanceType::type);

   INSTANCE_TYPE_LIST(TEST_INSTANCE_TYPE)
 #undef TEST_INSTANCE_TYPE
 }

 TEST(Object, InstanceTypeListOrder) {
   int current = 0;
   int last = -1;
   InstanceType current_type = static_cast<InstanceType>(current);
   EXPECT_EQ(current_type, InstanceType::FIRST_TYPE);
   EXPECT_EQ(current_type, InstanceType::INTERNALIZED_STRING_TYPE);
 #define TEST_INSTANCE_TYPE(type)                                           \
   current_type = InstanceType::type;                                       \
   current = static_cast<int>(current_type);                                \
   if (current > static_cast<int>(LAST_NAME_TYPE)) {                        \
     EXPECT_LE(last + 1, current);                                          \
   }                                                                        \
   EXPECT_LT(last, current) << " INSTANCE_TYPE_LIST is not ordered: "       \
                            << "last = " << static_cast<InstanceType>(last) \
                            << " vs. current = " << current_type;           \
   last = current;

   INSTANCE_TYPE_LIST(TEST_INSTANCE_TYPE)
 #undef TEST_INSTANCE_TYPE
 }

 TEST(Object, StructListOrder) {
   int current = static_cast<int>(InstanceType::ACCESS_CHECK_INFO_TYPE);
   int last = current - 1;
   ASSERT_LT(0, last);
   InstanceType current_type = static_cast<InstanceType>(current);
 #define TEST_STRUCT(type, class, name)                 \
   current_type = InstanceType::type##_TYPE;            \
   current = static_cast<int>(current_type);            \
   EXPECT_EQ(last + 1, current)                         \
       << " STRUCT_LIST is not ordered: "               \
       << " last = " << static_cast<InstanceType>(last) \
       << " vs. current = " << current_type;            \
   last = current;

   STRUCT_LIST(TEST_STRUCT)
 #undef TEST_STRUCT
 }

 typedef TestWithIsolate ObjectWithIsolate;

 TEST_F(ObjectWithIsolate, DictionaryGrowth) {
   Handle<NumberDictionary> dict = NumberDictionary::New(isolate(), 1);
   Handle<Object> value = isolate()->factory()->null_value();
   PropertyDetails details = PropertyDetails::Empty();

   // This test documents the expected growth behavior of a dictionary getting
   // elements added to it one by one.
   STATIC_ASSERT(HashTableBase::kMinCapacity == 4);
   uint32_t i = 1;
   // 3 elements fit into the initial capacity.
   for (; i <= 3; i++) {
     dict = NumberDictionary::Add(dict, i, value, details);
     CHECK_EQ(4, dict->Capacity());
   }
   // 4th element triggers growth.
   DCHECK_EQ(4, i);
   for (; i <= 5; i++) {
     dict = NumberDictionary::Add(dict, i, value, details);
     CHECK_EQ(8, dict->Capacity());
   }
   // 6th element triggers growth.
   DCHECK_EQ(6, i);
   for (; i <= 11; i++) {
     dict = NumberDictionary::Add(dict, i, value, details);
     CHECK_EQ(16, dict->Capacity());
   }
   // 12th element triggers growth.
   DCHECK_EQ(12, i);
   for (; i <= 21; i++) {
     dict = NumberDictionary::Add(dict, i, value, details);
     CHECK_EQ(32, dict->Capacity());
   }
   // 22nd element triggers growth.
   DCHECK_EQ(22, i);
   for (; i <= 43; i++) {
     dict = NumberDictionary::Add(dict, i, value, details);
     CHECK_EQ(64, dict->Capacity());
   }
   // 44th element triggers growth.
   DCHECK_EQ(44, i);
   for (; i <= 50; i++) {
     dict = NumberDictionary::Add(dict, i, value, details);
     CHECK_EQ(128, dict->Capacity());
   }

   // If we grow by larger chunks, the next (sufficiently big) power of 2 is
   // chosen as the capacity.
   dict = NumberDictionary::New(isolate(), 1);
   dict = NumberDictionary::EnsureCapacity(dict, 65);
   CHECK_EQ(128, dict->Capacity());

   dict = NumberDictionary::New(isolate(), 1);
   dict = NumberDictionary::EnsureCapacity(dict, 30);
   CHECK_EQ(64, dict->Capacity());
 }

 }  // namespace internal
 }  // namespace v8
	// Copyright 2016 the V8 project authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include <cmath>
	#include <iostream>
	#include <limits>

	#include "src/objects-inl.h"
	#include "src/objects.h"
	#include "test/unittests/test-utils.h"

	#include "testing/gtest/include/gtest/gtest.h"

	namespace v8 {
	namespace internal {

	namespace {

	bool IsInStringInstanceTypeList(InstanceType instance_type) {
	switch (instance_type) {
	#define TEST_INSTANCE_TYPE(type, ...) \
	case InstanceType::type: \
	STATIC_ASSERT(InstanceType::type < InstanceType::FIRST_NONSTRING_TYPE);

	STRING_TYPE_LIST(TEST_INSTANCE_TYPE)
	#undef TEST_INSTANCE_TYPE
	return true;
	default:
	EXPECT_LE(InstanceType::FIRST_NONSTRING_TYPE, instance_type);
	return false;
	}
	}

	void CheckOneInstanceType(InstanceType instance_type) {
	if (IsInStringInstanceTypeList(instance_type)) {
	EXPECT_TRUE((instance_type & kIsNotStringMask) == kStringTag)
	<< "Failing IsString mask check for " << instance_type;
	} else {
	EXPECT_FALSE((instance_type & kIsNotStringMask) == kStringTag)
	<< "Failing !IsString mask check for " << instance_type;
	}
	}

	} // namespace

	TEST(Object, InstanceTypeList) {
	#define TEST_INSTANCE_TYPE(type) CheckOneInstanceType(InstanceType::type);

	INSTANCE_TYPE_LIST(TEST_INSTANCE_TYPE)
	#undef TEST_INSTANCE_TYPE
	}

	TEST(Object, InstanceTypeListOrder) {
	int current = 0;
	int last = -1;
	InstanceType current_type = static_cast<InstanceType>(current);
	EXPECT_EQ(current_type, InstanceType::FIRST_TYPE);
	EXPECT_EQ(current_type, InstanceType::INTERNALIZED_STRING_TYPE);
	#define TEST_INSTANCE_TYPE(type) \
	current_type = InstanceType::type; \
	current = static_cast<int>(current_type); \
	if (current > static_cast<int>(LAST_NAME_TYPE)) { \
	EXPECT_LE(last + 1, current); \
	} \
	EXPECT_LT(last, current) << " INSTANCE_TYPE_LIST is not ordered: " \
	<< "last = " << static_cast<InstanceType>(last) \
	<< " vs. current = " << current_type; \
	last = current;

	INSTANCE_TYPE_LIST(TEST_INSTANCE_TYPE)
	#undef TEST_INSTANCE_TYPE
	}

	TEST(Object, StructListOrder) {
	int current = static_cast<int>(InstanceType::ACCESS_CHECK_INFO_TYPE);
	int last = current - 1;
	ASSERT_LT(0, last);
	InstanceType current_type = static_cast<InstanceType>(current);
	#define TEST_STRUCT(type, class, name) \
	current_type = InstanceType::type##_TYPE; \
	current = static_cast<int>(current_type); \
	EXPECT_EQ(last + 1, current) \
	<< " STRUCT_LIST is not ordered: " \
	<< " last = " << static_cast<InstanceType>(last) \
	<< " vs. current = " << current_type; \
	last = current;

	STRUCT_LIST(TEST_STRUCT)
	#undef TEST_STRUCT
	}

	typedef TestWithIsolate ObjectWithIsolate;

	TEST_F(ObjectWithIsolate, DictionaryGrowth) {
	Handle<NumberDictionary> dict = NumberDictionary::New(isolate(), 1);
	Handle<Object> value = isolate()->factory()->null_value();
	PropertyDetails details = PropertyDetails::Empty();

	// This test documents the expected growth behavior of a dictionary getting
	// elements added to it one by one.
	STATIC_ASSERT(HashTableBase::kMinCapacity == 4);
	uint32_t i = 1;
	// 3 elements fit into the initial capacity.
	for (; i <= 3; i++) {
	dict = NumberDictionary::Add(dict, i, value, details);
	CHECK_EQ(4, dict->Capacity());
	}
	// 4th element triggers growth.
	DCHECK_EQ(4, i);
	for (; i <= 5; i++) {
	dict = NumberDictionary::Add(dict, i, value, details);
	CHECK_EQ(8, dict->Capacity());
	}
	// 6th element triggers growth.
	DCHECK_EQ(6, i);
	for (; i <= 11; i++) {
	dict = NumberDictionary::Add(dict, i, value, details);
	CHECK_EQ(16, dict->Capacity());
	}
	// 12th element triggers growth.
	DCHECK_EQ(12, i);
	for (; i <= 21; i++) {
	dict = NumberDictionary::Add(dict, i, value, details);
	CHECK_EQ(32, dict->Capacity());
	}
	// 22nd element triggers growth.
	DCHECK_EQ(22, i);
	for (; i <= 43; i++) {
	dict = NumberDictionary::Add(dict, i, value, details);
	CHECK_EQ(64, dict->Capacity());
	}
	// 44th element triggers growth.
	DCHECK_EQ(44, i);
	for (; i <= 50; i++) {
	dict = NumberDictionary::Add(dict, i, value, details);
	CHECK_EQ(128, dict->Capacity());
	}

	// If we grow by larger chunks, the next (sufficiently big) power of 2 is
	// chosen as the capacity.
	dict = NumberDictionary::New(isolate(), 1);
	dict = NumberDictionary::EnsureCapacity(dict, 65);
	CHECK_EQ(128, dict->Capacity());

	dict = NumberDictionary::New(isolate(), 1);
	dict = NumberDictionary::EnsureCapacity(dict, 30);
	CHECK_EQ(64, dict->Capacity());
	}

	} // namespace internal
	} // namespace v8