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chromium / chromium / src / b04d96f39c28a1c15f8d9cd990e3b49bf352bf48 / . / base / memory / ref_counted_unittest.cc
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// Copyright (c) 2012 The Chromium 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 "base/memory/ref_counted.h"
#include <type_traits>
#include <utility>
#include "base/test/gtest_util.h"
#include "build/build_config.h"
#include "testing/gtest/include/gtest/gtest.h"
namespace base {
namespace subtle {
namespace {
class SelfAssign : public base::RefCounted<SelfAssign> {
protected:
virtual ~SelfAssign() = default;
private:
friend class base::RefCounted<SelfAssign>;
};
class Derived : public SelfAssign {
protected:
~Derived() override = default;
private:
friend class base::RefCounted<Derived>;
};
class CheckDerivedMemberAccess : public scoped_refptr<SelfAssign> {
public:
CheckDerivedMemberAccess() {
// This shouldn't compile if we don't have access to the member variable.
SelfAssign** pptr = &ptr_;
EXPECT_EQ(*pptr, ptr_);
}
};
class ScopedRefPtrToSelf : public base::RefCounted<ScopedRefPtrToSelf> {
public:
ScopedRefPtrToSelf() : self_ptr_(this) {}
static bool was_destroyed() { return was_destroyed_; }
static void reset_was_destroyed() { was_destroyed_ = false; }
scoped_refptr<ScopedRefPtrToSelf> self_ptr_;
private:
friend class base::RefCounted<ScopedRefPtrToSelf>;
~ScopedRefPtrToSelf() { was_destroyed_ = true; }
static bool was_destroyed_;
};
bool ScopedRefPtrToSelf::was_destroyed_ = false;
class ScopedRefPtrCountBase : public base::RefCounted<ScopedRefPtrCountBase> {
public:
ScopedRefPtrCountBase() { ++constructor_count_; }
static int constructor_count() { return constructor_count_; }
static int destructor_count() { return destructor_count_; }
static void reset_count() {
constructor_count_ = 0;
destructor_count_ = 0;
}
protected:
virtual ~ScopedRefPtrCountBase() { ++destructor_count_; }
private:
friend class base::RefCounted<ScopedRefPtrCountBase>;
static int constructor_count_;
static int destructor_count_;
};
int ScopedRefPtrCountBase::constructor_count_ = 0;
int ScopedRefPtrCountBase::destructor_count_ = 0;
class ScopedRefPtrCountDerived : public ScopedRefPtrCountBase {
public:
ScopedRefPtrCountDerived() { ++constructor_count_; }
static int constructor_count() { return constructor_count_; }
static int destructor_count() { return destructor_count_; }
static void reset_count() {
constructor_count_ = 0;
destructor_count_ = 0;
}
protected:
~ScopedRefPtrCountDerived() override { ++destructor_count_; }
private:
friend class base::RefCounted<ScopedRefPtrCountDerived>;
static int constructor_count_;
static int destructor_count_;
};
int ScopedRefPtrCountDerived::constructor_count_ = 0;
int ScopedRefPtrCountDerived::destructor_count_ = 0;
class Other : public base::RefCounted<Other> {
private:
friend class base::RefCounted<Other>;
~Other() = default;
};
class HasPrivateDestructorWithDeleter;
struct Deleter {
static void Destruct(const HasPrivateDestructorWithDeleter* x);
};
class HasPrivateDestructorWithDeleter
: public base::RefCounted<HasPrivateDestructorWithDeleter, Deleter> {
public:
HasPrivateDestructorWithDeleter() = default;
private:
friend struct Deleter;
~HasPrivateDestructorWithDeleter() = default;
};
void Deleter::Destruct(const HasPrivateDestructorWithDeleter* x) {
delete x;
}
scoped_refptr<Other> Overloaded(scoped_refptr<Other> other) {
return other;
}
scoped_refptr<SelfAssign> Overloaded(scoped_refptr<SelfAssign> self_assign) {
return self_assign;
}
class InitialRefCountIsOne : public base::RefCounted<InitialRefCountIsOne> {
public:
REQUIRE_ADOPTION_FOR_REFCOUNTED_TYPE();
InitialRefCountIsOne() = default;
private:
friend class base::RefCounted<InitialRefCountIsOne>;
~InitialRefCountIsOne() = default;
};
// Checks that the scoped_refptr is null before the reference counted object is
// destroyed.
class CheckRefptrNull : public base::RefCounted<CheckRefptrNull> {
public:
// Set the last scoped_refptr that will have a reference to this object.
void set_scoped_refptr(scoped_refptr<CheckRefptrNull>* ptr) { ptr_ = ptr; }
protected:
virtual ~CheckRefptrNull() {
EXPECT_NE(ptr_, nullptr);
EXPECT_EQ(ptr_->get(), nullptr);
}
private:
friend class base::RefCounted<CheckRefptrNull>;
scoped_refptr<CheckRefptrNull>* ptr_ = nullptr;
};
class Overflow : public base::RefCounted<Overflow> {
public:
Overflow() = default;
private:
friend class base::RefCounted<Overflow>;
~Overflow() = default;
};
} // namespace
TEST(RefCountedUnitTest, TestSelfAssignment) {
SelfAssign* p = new SelfAssign;
scoped_refptr<SelfAssign> var(p);
var = *&var; // The *& defeats Clang's -Wself-assign warning.
EXPECT_EQ(var.get(), p);
var = std::move(var);
EXPECT_EQ(var.get(), p);
var.swap(var);
EXPECT_EQ(var.get(), p);
swap(var, var);
EXPECT_EQ(var.get(), p);
}
TEST(RefCountedUnitTest, ScopedRefPtrMemberAccess) {
CheckDerivedMemberAccess check;
}
TEST(RefCountedUnitTest, ScopedRefPtrToSelfPointerAssignment) {
ScopedRefPtrToSelf::reset_was_destroyed();
ScopedRefPtrToSelf* check = new ScopedRefPtrToSelf();
EXPECT_FALSE(ScopedRefPtrToSelf::was_destroyed());
check->self_ptr_ = nullptr;
EXPECT_TRUE(ScopedRefPtrToSelf::was_destroyed());
}
TEST(RefCountedUnitTest, ScopedRefPtrToSelfMoveAssignment) {
ScopedRefPtrToSelf::reset_was_destroyed();
ScopedRefPtrToSelf* check = new ScopedRefPtrToSelf();
EXPECT_FALSE(ScopedRefPtrToSelf::was_destroyed());
// Releasing |check->self_ptr_| will delete |check|.
// The move assignment operator must assign |check->self_ptr_| first then
// release |check->self_ptr_|.
check->self_ptr_ = scoped_refptr<ScopedRefPtrToSelf>();
EXPECT_TRUE(ScopedRefPtrToSelf::was_destroyed());
}
TEST(RefCountedUnitTest, BooleanTesting) {
scoped_refptr<SelfAssign> ptr_to_an_instance = new SelfAssign;
EXPECT_TRUE(ptr_to_an_instance);
EXPECT_FALSE(!ptr_to_an_instance);
if (ptr_to_an_instance) {
} else {
ADD_FAILURE() << "Pointer to an instance should result in true.";
}
if (!ptr_to_an_instance) { // check for operator!().
ADD_FAILURE() << "Pointer to an instance should result in !x being false.";
}
scoped_refptr<SelfAssign> null_ptr;
EXPECT_FALSE(null_ptr);
EXPECT_TRUE(!null_ptr);
if (null_ptr) {
ADD_FAILURE() << "Null pointer should result in false.";
}
if (!null_ptr) { // check for operator!().
} else {
ADD_FAILURE() << "Null pointer should result in !x being true.";
}
}
TEST(RefCountedUnitTest, Equality) {
scoped_refptr<SelfAssign> p1(new SelfAssign);
scoped_refptr<SelfAssign> p2(new SelfAssign);
EXPECT_EQ(p1, p1);
EXPECT_EQ(p2, p2);
EXPECT_NE(p1, p2);
EXPECT_NE(p2, p1);
}
TEST(RefCountedUnitTest, NullptrEquality) {
scoped_refptr<SelfAssign> ptr_to_an_instance(new SelfAssign);
scoped_refptr<SelfAssign> ptr_to_nullptr;
EXPECT_NE(nullptr, ptr_to_an_instance);
EXPECT_NE(ptr_to_an_instance, nullptr);
EXPECT_EQ(nullptr, ptr_to_nullptr);
EXPECT_EQ(ptr_to_nullptr, nullptr);
}
TEST(RefCountedUnitTest, ConvertibleEquality) {
scoped_refptr<Derived> p1(new Derived);
scoped_refptr<SelfAssign> p2;
EXPECT_NE(p1, p2);
EXPECT_NE(p2, p1);
p2 = p1;
EXPECT_EQ(p1, p2);
EXPECT_EQ(p2, p1);
}
TEST(RefCountedUnitTest, MoveAssignment1) {
ScopedRefPtrCountBase::reset_count();
{
ScopedRefPtrCountBase *raw = new ScopedRefPtrCountBase();
scoped_refptr<ScopedRefPtrCountBase> p1(raw);
EXPECT_EQ(1, ScopedRefPtrCountBase::constructor_count());
EXPECT_EQ(0, ScopedRefPtrCountBase::destructor_count());
{
scoped_refptr<ScopedRefPtrCountBase> p2;
p2 = std::move(p1);
EXPECT_EQ(1, ScopedRefPtrCountBase::constructor_count());
EXPECT_EQ(0, ScopedRefPtrCountBase::destructor_count());
EXPECT_EQ(nullptr, p1.get());
EXPECT_EQ(raw, p2.get());
// p2 goes out of scope.
}
EXPECT_EQ(1, ScopedRefPtrCountBase::constructor_count());
EXPECT_EQ(1, ScopedRefPtrCountBase::destructor_count());
// p1 goes out of scope.
}
EXPECT_EQ(1, ScopedRefPtrCountBase::constructor_count());
EXPECT_EQ(1, ScopedRefPtrCountBase::destructor_count());
}
TEST(RefCountedUnitTest, MoveAssignment2) {
ScopedRefPtrCountBase::reset_count();
{
ScopedRefPtrCountBase *raw = new ScopedRefPtrCountBase();
scoped_refptr<ScopedRefPtrCountBase> p1;
EXPECT_EQ(1, ScopedRefPtrCountBase::constructor_count());
EXPECT_EQ(0, ScopedRefPtrCountBase::destructor_count());
{
scoped_refptr<ScopedRefPtrCountBase> p2(raw);
EXPECT_EQ(1, ScopedRefPtrCountBase::constructor_count());
EXPECT_EQ(0, ScopedRefPtrCountBase::destructor_count());
p1 = std::move(p2);
EXPECT_EQ(1, ScopedRefPtrCountBase::constructor_count());
EXPECT_EQ(0, ScopedRefPtrCountBase::destructor_count());
EXPECT_EQ(raw, p1.get());
EXPECT_EQ(nullptr, p2.get());
// p2 goes out of scope.
}
EXPECT_EQ(1, ScopedRefPtrCountBase::constructor_count());
EXPECT_EQ(0, ScopedRefPtrCountBase::destructor_count());
// p1 goes out of scope.
}
EXPECT_EQ(1, ScopedRefPtrCountBase::constructor_count());
EXPECT_EQ(1, ScopedRefPtrCountBase::destructor_count());
}
TEST(RefCountedUnitTest, MoveAssignmentSameInstance1) {
ScopedRefPtrCountBase::reset_count();
{
ScopedRefPtrCountBase *raw = new ScopedRefPtrCountBase();
scoped_refptr<ScopedRefPtrCountBase> p1(raw);
EXPECT_EQ(1, ScopedRefPtrCountBase::constructor_count());
EXPECT_EQ(0, ScopedRefPtrCountBase::destructor_count());
{
scoped_refptr<ScopedRefPtrCountBase> p2(p1);
EXPECT_EQ(1, ScopedRefPtrCountBase::constructor_count());
EXPECT_EQ(0, ScopedRefPtrCountBase::destructor_count());
p1 = std::move(p2);
EXPECT_EQ(1, ScopedRefPtrCountBase::constructor_count());
EXPECT_EQ(0, ScopedRefPtrCountBase::destructor_count());
EXPECT_EQ(raw, p1.get());
EXPECT_EQ(nullptr, p2.get());
// p2 goes out of scope.
}
EXPECT_EQ(1, ScopedRefPtrCountBase::constructor_count());
EXPECT_EQ(0, ScopedRefPtrCountBase::destructor_count());
// p1 goes out of scope.
}
EXPECT_EQ(1, ScopedRefPtrCountBase::constructor_count());
EXPECT_EQ(1, ScopedRefPtrCountBase::destructor_count());
}
TEST(RefCountedUnitTest, MoveAssignmentSameInstance2) {
ScopedRefPtrCountBase::reset_count();
{
ScopedRefPtrCountBase *raw = new ScopedRefPtrCountBase();
scoped_refptr<ScopedRefPtrCountBase> p1(raw);
EXPECT_EQ(1, ScopedRefPtrCountBase::constructor_count());
EXPECT_EQ(0, ScopedRefPtrCountBase::destructor_count());
{
scoped_refptr<ScopedRefPtrCountBase> p2(p1);
EXPECT_EQ(1, ScopedRefPtrCountBase::constructor_count());
EXPECT_EQ(0, ScopedRefPtrCountBase::destructor_count());
p2 = std::move(p1);
EXPECT_EQ(1, ScopedRefPtrCountBase::constructor_count());
EXPECT_EQ(0, ScopedRefPtrCountBase::destructor_count());
EXPECT_EQ(nullptr, p1.get());
EXPECT_EQ(raw, p2.get());
// p2 goes out of scope.
}
EXPECT_EQ(1, ScopedRefPtrCountBase::constructor_count());
EXPECT_EQ(1, ScopedRefPtrCountBase::destructor_count());
// p1 goes out of scope.
}
EXPECT_EQ(1, ScopedRefPtrCountBase::constructor_count());
EXPECT_EQ(1, ScopedRefPtrCountBase::destructor_count());
}
TEST(RefCountedUnitTest, MoveAssignmentDifferentInstances) {
ScopedRefPtrCountBase::reset_count();
{
ScopedRefPtrCountBase *raw1 = new ScopedRefPtrCountBase();
scoped_refptr<ScopedRefPtrCountBase> p1(raw1);
EXPECT_EQ(1, ScopedRefPtrCountBase::constructor_count());
EXPECT_EQ(0, ScopedRefPtrCountBase::destructor_count());
{
ScopedRefPtrCountBase *raw2 = new ScopedRefPtrCountBase();
scoped_refptr<ScopedRefPtrCountBase> p2(raw2);
EXPECT_EQ(2, ScopedRefPtrCountBase::constructor_count());
EXPECT_EQ(0, ScopedRefPtrCountBase::destructor_count());
p1 = std::move(p2);
EXPECT_EQ(2, ScopedRefPtrCountBase::constructor_count());
EXPECT_EQ(1, ScopedRefPtrCountBase::destructor_count());
EXPECT_EQ(raw2, p1.get());
EXPECT_EQ(nullptr, p2.get());
// p2 goes out of scope.
}
EXPECT_EQ(2, ScopedRefPtrCountBase::constructor_count());
EXPECT_EQ(1, ScopedRefPtrCountBase::destructor_count());
// p1 goes out of scope.
}
EXPECT_EQ(2, ScopedRefPtrCountBase::constructor_count());
EXPECT_EQ(2, ScopedRefPtrCountBase::destructor_count());
}
TEST(RefCountedUnitTest, MoveAssignmentSelfMove) {
ScopedRefPtrCountBase::reset_count();
{
ScopedRefPtrCountBase* raw = new ScopedRefPtrCountBase;
scoped_refptr<ScopedRefPtrCountBase> p1(raw);
scoped_refptr<ScopedRefPtrCountBase>& p1_ref = p1;
EXPECT_EQ(1, ScopedRefPtrCountBase::constructor_count());
EXPECT_EQ(0, ScopedRefPtrCountBase::destructor_count());
p1 = std::move(p1_ref);
// |p1| is "valid but unspecified", so don't bother inspecting its
// contents, just ensure that we don't crash.
}
EXPECT_EQ(1, ScopedRefPtrCountBase::constructor_count());
EXPECT_EQ(1, ScopedRefPtrCountBase::destructor_count());
}
TEST(RefCountedUnitTest, MoveAssignmentDerived) {
ScopedRefPtrCountBase::reset_count();
ScopedRefPtrCountDerived::reset_count();
{
ScopedRefPtrCountBase *raw1 = new ScopedRefPtrCountBase();
scoped_refptr<ScopedRefPtrCountBase> p1(raw1);
EXPECT_EQ(1, ScopedRefPtrCountBase::constructor_count());
EXPECT_EQ(0, ScopedRefPtrCountBase::destructor_count());
EXPECT_EQ(0, ScopedRefPtrCountDerived::constructor_count());
EXPECT_EQ(0, ScopedRefPtrCountDerived::destructor_count());
{
ScopedRefPtrCountDerived *raw2 = new ScopedRefPtrCountDerived();
scoped_refptr<ScopedRefPtrCountDerived> p2(raw2);
EXPECT_EQ(2, ScopedRefPtrCountBase::constructor_count());
EXPECT_EQ(0, ScopedRefPtrCountBase::destructor_count());
EXPECT_EQ(1, ScopedRefPtrCountDerived::constructor_count());
EXPECT_EQ(0, ScopedRefPtrCountDerived::destructor_count());
p1 = std::move(p2);
EXPECT_EQ(2, ScopedRefPtrCountBase::constructor_count());
EXPECT_EQ(1, ScopedRefPtrCountBase::destructor_count());
EXPECT_EQ(1, ScopedRefPtrCountDerived::constructor_count());
EXPECT_EQ(0, ScopedRefPtrCountDerived::destructor_count());
EXPECT_EQ(raw2, p1.get());
EXPECT_EQ(nullptr, p2.get());
// p2 goes out of scope.
}
EXPECT_EQ(2, ScopedRefPtrCountBase::constructor_count());
EXPECT_EQ(1, ScopedRefPtrCountBase::destructor_count());
EXPECT_EQ(1, ScopedRefPtrCountDerived::constructor_count());
EXPECT_EQ(0, ScopedRefPtrCountDerived::destructor_count());
// p1 goes out of scope.
}
EXPECT_EQ(2, ScopedRefPtrCountBase::constructor_count());
EXPECT_EQ(2, ScopedRefPtrCountBase::destructor_count());
EXPECT_EQ(1, ScopedRefPtrCountDerived::constructor_count());
EXPECT_EQ(1, ScopedRefPtrCountDerived::destructor_count());
}
TEST(RefCountedUnitTest, MoveConstructor) {
ScopedRefPtrCountBase::reset_count();
{
ScopedRefPtrCountBase *raw = new ScopedRefPtrCountBase();
scoped_refptr<ScopedRefPtrCountBase> p1(raw);
EXPECT_EQ(1, ScopedRefPtrCountBase::constructor_count());
EXPECT_EQ(0, ScopedRefPtrCountBase::destructor_count());
{
scoped_refptr<ScopedRefPtrCountBase> p2(std::move(p1));
EXPECT_EQ(1, ScopedRefPtrCountBase::constructor_count());
EXPECT_EQ(0, ScopedRefPtrCountBase::destructor_count());
EXPECT_EQ(nullptr, p1.get());
EXPECT_EQ(raw, p2.get());
// p2 goes out of scope.
}
EXPECT_EQ(1, ScopedRefPtrCountBase::constructor_count());
EXPECT_EQ(1, ScopedRefPtrCountBase::destructor_count());
// p1 goes out of scope.
}
EXPECT_EQ(1, ScopedRefPtrCountBase::constructor_count());
EXPECT_EQ(1, ScopedRefPtrCountBase::destructor_count());
}
TEST(RefCountedUnitTest, MoveConstructorDerived) {
ScopedRefPtrCountBase::reset_count();
ScopedRefPtrCountDerived::reset_count();
{
ScopedRefPtrCountDerived *raw1 = new ScopedRefPtrCountDerived();
scoped_refptr<ScopedRefPtrCountDerived> p1(raw1);
EXPECT_EQ(1, ScopedRefPtrCountBase::constructor_count());
EXPECT_EQ(0, ScopedRefPtrCountBase::destructor_count());
EXPECT_EQ(1, ScopedRefPtrCountDerived::constructor_count());
EXPECT_EQ(0, ScopedRefPtrCountDerived::destructor_count());
{
scoped_refptr<ScopedRefPtrCountBase> p2(std::move(p1));
EXPECT_EQ(1, ScopedRefPtrCountBase::constructor_count());
EXPECT_EQ(0, ScopedRefPtrCountBase::destructor_count());
EXPECT_EQ(1, ScopedRefPtrCountDerived::constructor_count());
EXPECT_EQ(0, ScopedRefPtrCountDerived::destructor_count());
EXPECT_EQ(nullptr, p1.get());
EXPECT_EQ(raw1, p2.get());
// p2 goes out of scope.
}
EXPECT_EQ(1, ScopedRefPtrCountBase::constructor_count());
EXPECT_EQ(1, ScopedRefPtrCountBase::destructor_count());
EXPECT_EQ(1, ScopedRefPtrCountDerived::constructor_count());
EXPECT_EQ(1, ScopedRefPtrCountDerived::destructor_count());
// p1 goes out of scope.
}
EXPECT_EQ(1, ScopedRefPtrCountBase::constructor_count());
EXPECT_EQ(1, ScopedRefPtrCountBase::destructor_count());
EXPECT_EQ(1, ScopedRefPtrCountDerived::constructor_count());
EXPECT_EQ(1, ScopedRefPtrCountDerived::destructor_count());
}
TEST(RefCountedUnitTest, TestOverloadResolutionCopy) {
const scoped_refptr<Derived> derived(new Derived);
const scoped_refptr<SelfAssign> expected(derived);
EXPECT_EQ(expected, Overloaded(derived));
const scoped_refptr<Other> other(new Other);
EXPECT_EQ(other, Overloaded(other));
}
TEST(RefCountedUnitTest, TestOverloadResolutionMove) {
scoped_refptr<Derived> derived(new Derived);
const scoped_refptr<SelfAssign> expected(derived);
EXPECT_EQ(expected, Overloaded(std::move(derived)));
scoped_refptr<Other> other(new Other);
const scoped_refptr<Other> other2(other);
EXPECT_EQ(other2, Overloaded(std::move(other)));
}
TEST(RefCountedUnitTest, TestMakeRefCounted) {
scoped_refptr<Derived> derived = new Derived;
EXPECT_TRUE(derived->HasOneRef());
derived.reset();
scoped_refptr<Derived> derived2 = base::MakeRefCounted<Derived>();
EXPECT_TRUE(derived2->HasOneRef());
derived2.reset();
}
TEST(RefCountedUnitTest, TestInitialRefCountIsOne) {
scoped_refptr<InitialRefCountIsOne> obj =
base::MakeRefCounted<InitialRefCountIsOne>();
EXPECT_TRUE(obj->HasOneRef());
obj.reset();
scoped_refptr<InitialRefCountIsOne> obj2 =
base::AdoptRef(new InitialRefCountIsOne);
EXPECT_TRUE(obj2->HasOneRef());
obj2.reset();
scoped_refptr<Other> obj3 = base::MakeRefCounted<Other>();
EXPECT_TRUE(obj3->HasOneRef());
obj3.reset();
}
TEST(RefCountedUnitTest, TestPrivateDestructorWithDeleter) {
// Ensure that RefCounted doesn't need the access to the pointee dtor when
// a custom deleter is given.
scoped_refptr<HasPrivateDestructorWithDeleter> obj =
base::MakeRefCounted<HasPrivateDestructorWithDeleter>();
}
TEST(RefCountedUnitTest, TestReset) {
ScopedRefPtrCountBase::reset_count();
// Create ScopedRefPtrCountBase that is referenced by |obj1| and |obj2|.
scoped_refptr<ScopedRefPtrCountBase> obj1 =
base::MakeRefCounted<ScopedRefPtrCountBase>();
scoped_refptr<ScopedRefPtrCountBase> obj2 = obj1;
EXPECT_NE(obj1.get(), nullptr);
EXPECT_NE(obj2.get(), nullptr);
EXPECT_EQ(ScopedRefPtrCountBase::constructor_count(), 1);
EXPECT_EQ(ScopedRefPtrCountBase::destructor_count(), 0);
// Check that calling reset() on |obj1| resets it. |obj2| still has a
// reference to the ScopedRefPtrCountBase so it shouldn't be reset.
obj1.reset();
EXPECT_EQ(obj1.get(), nullptr);
EXPECT_EQ(ScopedRefPtrCountBase::constructor_count(), 1);
EXPECT_EQ(ScopedRefPtrCountBase::destructor_count(), 0);
// Check that calling reset() on |obj2| resets it and causes the deletion of
// the ScopedRefPtrCountBase.
obj2.reset();
EXPECT_EQ(obj2.get(), nullptr);
EXPECT_EQ(ScopedRefPtrCountBase::constructor_count(), 1);
EXPECT_EQ(ScopedRefPtrCountBase::destructor_count(), 1);
}
TEST(RefCountedUnitTest, TestResetAlreadyNull) {
// Check that calling reset() on a null scoped_refptr does nothing.
scoped_refptr<ScopedRefPtrCountBase> obj;
obj.reset();
// |obj| should still be null after calling reset().
EXPECT_EQ(obj.get(), nullptr);
}
TEST(RefCountedUnitTest, CheckScopedRefptrNullBeforeObjectDestruction) {
scoped_refptr<CheckRefptrNull> obj = base::MakeRefCounted<CheckRefptrNull>();
obj->set_scoped_refptr(&obj);
// Check that when reset() is called the scoped_refptr internal pointer is set
// to null before the reference counted object is destroyed. This check is
// done by the CheckRefptrNull destructor.
obj.reset();
EXPECT_EQ(obj.get(), nullptr);
}
TEST(RefCountedDeathTest, TestAdoptRef) {
// Check that WrapRefCounted() DCHECKs if passed a type that defines
// REQUIRE_ADOPTION_FOR_REFCOUNTED_TYPE.
EXPECT_DCHECK_DEATH(base::WrapRefCounted(new InitialRefCountIsOne));
// Check that AdoptRef() DCHECKs if passed a nullptr.
InitialRefCountIsOne* ptr = nullptr;
EXPECT_DCHECK_DEATH(base::AdoptRef(ptr));
// Check that AdoptRef() DCHECKs if passed an object that doesn't need to be
// adopted.
scoped_refptr<InitialRefCountIsOne> obj =
base::MakeRefCounted<InitialRefCountIsOne>();
EXPECT_DCHECK_DEATH(base::AdoptRef(obj.get()));
}
#if defined(ARCH_CPU_64_BITS)
TEST(RefCountedDeathTest, TestOverflowCheck) {
EXPECT_DCHECK_DEATH({
auto p = base::MakeRefCounted<Overflow>();
p->ref_count_ = std::numeric_limits<uint32_t>::max();
p->AddRef();
});
}
#endif
} // namespace subtle
} // namespace base