base/memory/ref_counted.h - chromium/src - Git at Google

 // 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.

 #ifndef BASE_MEMORY_REF_COUNTED_H_
 #define BASE_MEMORY_REF_COUNTED_H_

 #include <stddef.h>

 #include <utility>

 #include "base/atomic_ref_count.h"
 #include "base/base_export.h"
 #include "base/compiler_specific.h"
 #include "base/gtest_prod_util.h"
 #include "base/logging.h"
 #include "base/macros.h"
 #include "base/memory/scoped_refptr.h"
 #include "base/sequence_checker.h"
 #include "base/threading/thread_collision_warner.h"
 #include "build/build_config.h"

 namespace base {
 namespace subtle {

 class BASE_EXPORT RefCountedBase {
  public:
   bool HasOneRef() const { return ref_count_ == 1; }
   bool HasAtLeastOneRef() const { return ref_count_ >= 1; }

  protected:
   explicit RefCountedBase(StartRefCountFromZeroTag) {
 #if DCHECK_IS_ON()
     sequence_checker_.DetachFromSequence();
 #endif
   }

   explicit RefCountedBase(StartRefCountFromOneTag) : ref_count_(1) {
 #if DCHECK_IS_ON()
     needs_adopt_ref_ = true;
     sequence_checker_.DetachFromSequence();
 #endif
   }

   ~RefCountedBase() {
 #if DCHECK_IS_ON()
     DCHECK(in_dtor_) << "RefCounted object deleted without calling Release()";
 #endif
   }

   void AddRef() const {
     // TODO(maruel): Add back once it doesn't assert 500 times/sec.
     // Current thread books the critical section "AddRelease"
     // without release it.
     // DFAKE_SCOPED_LOCK_THREAD_LOCKED(add_release_);
 #if DCHECK_IS_ON()
     DCHECK(!in_dtor_);
     DCHECK(!needs_adopt_ref_)
         << "This RefCounted object is created with non-zero reference count."
         << " The first reference to such a object has to be made by AdoptRef or"
         << " MakeRefCounted.";
     if (ref_count_ >= 1) {
       DCHECK(CalledOnValidSequence());
     }
 #endif

     AddRefImpl();
   }

   // Returns true if the object should self-delete.
   bool Release() const {
     --ref_count_;

     // TODO(maruel): Add back once it doesn't assert 500 times/sec.
     // Current thread books the critical section "AddRelease"
     // without release it.
     // DFAKE_SCOPED_LOCK_THREAD_LOCKED(add_release_);

 #if DCHECK_IS_ON()
     DCHECK(!in_dtor_);
     if (ref_count_ == 0)
       in_dtor_ = true;

     if (ref_count_ >= 1)
       DCHECK(CalledOnValidSequence());
     if (ref_count_ == 1)
       sequence_checker_.DetachFromSequence();
 #endif

     return ref_count_ == 0;
   }

   // Returns true if it is safe to read or write the object, from a thread
   // safety standpoint. Should be DCHECK'd from the methods of RefCounted
   // classes if there is a danger of objects being shared across threads.
   //
   // This produces fewer false positives than adding a separate SequenceChecker
   // into the subclass, because it automatically detaches from the sequence when
   // the reference count is 1 (and never fails if there is only one reference).
   //
   // This means unlike a separate SequenceChecker, it will permit a singly
   // referenced object to be passed between threads (not holding a reference on
   // the sending thread), but will trap if the sending thread holds onto a
   // reference, or if the object is accessed from multiple threads
   // simultaneously.
   bool IsOnValidSequence() const {
 #if DCHECK_IS_ON()
     return ref_count_ <= 1 || CalledOnValidSequence();
 #else
     return true;
 #endif
   }

  private:
   template <typename U>
   friend scoped_refptr<U> base::AdoptRef(U*);

   FRIEND_TEST_ALL_PREFIXES(RefCountedDeathTest, TestOverflowCheck);

   void Adopted() const {
 #if DCHECK_IS_ON()
     DCHECK(needs_adopt_ref_);
     needs_adopt_ref_ = false;
 #endif
   }

 #if defined(ARCH_CPU_64_BITS)
   void AddRefImpl() const;
 #else
   void AddRefImpl() const { ++ref_count_; }
 #endif

 #if DCHECK_IS_ON()
   bool CalledOnValidSequence() const;
 #endif

   mutable uint32_t ref_count_ = 0;

 #if DCHECK_IS_ON()
   mutable bool needs_adopt_ref_ = false;
   mutable bool in_dtor_ = false;
   mutable SequenceChecker sequence_checker_;
 #endif

   DFAKE_MUTEX(add_release_);

   DISALLOW_COPY_AND_ASSIGN(RefCountedBase);
 };

 class BASE_EXPORT RefCountedThreadSafeBase {
  public:
   bool HasOneRef() const;
   bool HasAtLeastOneRef() const;

  protected:
   explicit constexpr RefCountedThreadSafeBase(StartRefCountFromZeroTag) {}
   explicit constexpr RefCountedThreadSafeBase(StartRefCountFromOneTag)
       : ref_count_(1) {
 #if DCHECK_IS_ON()
     needs_adopt_ref_ = true;
 #endif
   }

 #if DCHECK_IS_ON()
   ~RefCountedThreadSafeBase();
 #else
   ~RefCountedThreadSafeBase() = default;
 #endif

 // Release and AddRef are suitable for inlining on X86 because they generate
 // very small code sequences. On other platforms (ARM), it causes a size
 // regression and is probably not worth it.
 #if defined(ARCH_CPU_X86_FAMILY)
   // Returns true if the object should self-delete.
   bool Release() const { return ReleaseImpl(); }
   void AddRef() const { AddRefImpl(); }
   void AddRefWithCheck() const { AddRefWithCheckImpl(); }
 #else
   // Returns true if the object should self-delete.
   bool Release() const;
   void AddRef() const;
   void AddRefWithCheck() const;
 #endif

  private:
   template <typename U>
   friend scoped_refptr<U> base::AdoptRef(U*);

   void Adopted() const {
 #if DCHECK_IS_ON()
     DCHECK(needs_adopt_ref_);
     needs_adopt_ref_ = false;
 #endif
   }

   ALWAYS_INLINE void AddRefImpl() const {
 #if DCHECK_IS_ON()
     DCHECK(!in_dtor_);
     DCHECK(!needs_adopt_ref_)
         << "This RefCounted object is created with non-zero reference count."
         << " The first reference to such a object has to be made by AdoptRef or"
         << " MakeRefCounted.";
 #endif
     ref_count_.Increment();
   }

   ALWAYS_INLINE void AddRefWithCheckImpl() const {
 #if DCHECK_IS_ON()
     DCHECK(!in_dtor_);
     DCHECK(!needs_adopt_ref_)
         << "This RefCounted object is created with non-zero reference count."
         << " The first reference to such a object has to be made by AdoptRef or"
         << " MakeRefCounted.";
 #endif
     CHECK(ref_count_.Increment() > 0);
   }

   ALWAYS_INLINE bool ReleaseImpl() const {
 #if DCHECK_IS_ON()
     DCHECK(!in_dtor_);
     DCHECK(!ref_count_.IsZero());
 #endif
     if (!ref_count_.Decrement()) {
 #if DCHECK_IS_ON()
       in_dtor_ = true;
 #endif
       return true;
     }
     return false;
   }

   mutable AtomicRefCount ref_count_{0};
 #if DCHECK_IS_ON()
   mutable bool needs_adopt_ref_ = false;
   mutable bool in_dtor_ = false;
 #endif

   DISALLOW_COPY_AND_ASSIGN(RefCountedThreadSafeBase);
 };

 }  // namespace subtle

 // ScopedAllowCrossThreadRefCountAccess disables the check documented on
 // RefCounted below for rare pre-existing use cases where thread-safety was
 // guaranteed through other means (e.g. explicit sequencing of calls across
 // execution sequences when bouncing between threads in order). New callers
 // should refrain from using this (callsites handling thread-safety through
 // locks should use RefCountedThreadSafe per the overhead of its atomics being
 // negligible compared to locks anyways and callsites doing explicit sequencing
 // should properly std::move() the ref to avoid hitting this check).
 // TODO(tzik): Cleanup existing use cases and remove
 // ScopedAllowCrossThreadRefCountAccess.
 class BASE_EXPORT ScopedAllowCrossThreadRefCountAccess final {
  public:
 #if DCHECK_IS_ON()
   ScopedAllowCrossThreadRefCountAccess();
   ~ScopedAllowCrossThreadRefCountAccess();
 #else
   ScopedAllowCrossThreadRefCountAccess() {}
   ~ScopedAllowCrossThreadRefCountAccess() {}
 #endif
 };

 //
 // A base class for reference counted classes.  Otherwise, known as a cheap
 // knock-off of WebKit's RefCounted<T> class.  To use this, just extend your
 // class from it like so:
 //
 //   class MyFoo : public base::RefCounted<MyFoo> {
 //    ...
 //    private:
 //     friend class base::RefCounted<MyFoo>;
 //     ~MyFoo();
 //   };
 //
 // You should always make your destructor non-public, to avoid any code deleting
 // the object accidently while there are references to it.
 //
 //
 // The ref count manipulation to RefCounted is NOT thread safe and has DCHECKs
 // to trap unsafe cross thread usage. A subclass instance of RefCounted can be
 // passed to another execution sequence only when its ref count is 1. If the ref
 // count is more than 1, the RefCounted class verifies the ref updates are made
 // on the same execution sequence as the previous ones. The subclass can also
 // manually call IsOnValidSequence to trap other non-thread-safe accesses; see
 // the documentation for that method.
 //
 //
 // The reference count starts from zero by default, and we intended to migrate
 // to start-from-one ref count. Put REQUIRE_ADOPTION_FOR_REFCOUNTED_TYPE() to
 // the ref counted class to opt-in.
 //
 // If an object has start-from-one ref count, the first scoped_refptr need to be
 // created by base::AdoptRef() or base::MakeRefCounted(). We can use
 // base::MakeRefCounted() to create create both type of ref counted object.
 //
 // The motivations to use start-from-one ref count are:
 //  - Start-from-one ref count doesn't need the ref count increment for the
 //    first reference.
 //  - It can detect an invalid object acquisition for a being-deleted object
 //    that has zero ref count. That tends to happen on custom deleter that
 //    delays the deletion.
 //    TODO(tzik): Implement invalid acquisition detection.
 //  - Behavior parity to Blink's WTF::RefCounted, whose count starts from one.
 //    And start-from-one ref count is a step to merge WTF::RefCounted into
 //    base::RefCounted.
 //
 #define REQUIRE_ADOPTION_FOR_REFCOUNTED_TYPE()             \
   static constexpr ::base::subtle::StartRefCountFromOneTag \
       kRefCountPreference = ::base::subtle::kStartRefCountFromOneTag

 template <class T, typename Traits>
 class RefCounted;

 template <typename T>
 struct DefaultRefCountedTraits {
   static void Destruct(const T* x) {
     RefCounted<T, DefaultRefCountedTraits>::DeleteInternal(x);
   }
 };

 template <class T, typename Traits = DefaultRefCountedTraits<T>>
 class RefCounted : public subtle::RefCountedBase {
  public:
   static constexpr subtle::StartRefCountFromZeroTag kRefCountPreference =
       subtle::kStartRefCountFromZeroTag;

   RefCounted() : subtle::RefCountedBase(T::kRefCountPreference) {}

   void AddRef() const {
     subtle::RefCountedBase::AddRef();
   }

   void Release() const {
     if (subtle::RefCountedBase::Release()) {
       // Prune the code paths which the static analyzer may take to simulate
       // object destruction. Use-after-free errors aren't possible given the
       // lifetime guarantees of the refcounting system.
       ANALYZER_SKIP_THIS_PATH();

       Traits::Destruct(static_cast<const T*>(this));
     }
   }

  protected:
   ~RefCounted() = default;

  private:
   friend struct DefaultRefCountedTraits<T>;
   template <typename U>
   static void DeleteInternal(const U* x) {
     delete x;
   }

   DISALLOW_COPY_AND_ASSIGN(RefCounted);
 };

 // Forward declaration.
 template <class T, typename Traits> class RefCountedThreadSafe;

 // Default traits for RefCountedThreadSafe<T>.  Deletes the object when its ref
 // count reaches 0.  Overload to delete it on a different thread etc.
 template<typename T>
 struct DefaultRefCountedThreadSafeTraits {
   static void Destruct(const T* x) {
     // Delete through RefCountedThreadSafe to make child classes only need to be
     // friend with RefCountedThreadSafe instead of this struct, which is an
     // implementation detail.
     RefCountedThreadSafe<T,
                          DefaultRefCountedThreadSafeTraits>::DeleteInternal(x);
   }
 };

 //
 // A thread-safe variant of RefCounted<T>
 //
 //   class MyFoo : public base::RefCountedThreadSafe<MyFoo> {
 //    ...
 //   };
 //
 // If you're using the default trait, then you should add compile time
 // asserts that no one else is deleting your object.  i.e.
 //    private:
 //     friend class base::RefCountedThreadSafe<MyFoo>;
 //     ~MyFoo();
 //
 // We can use REQUIRE_ADOPTION_FOR_REFCOUNTED_TYPE() with RefCountedThreadSafe
 // too. See the comment above the RefCounted definition for details.
 template <class T, typename Traits = DefaultRefCountedThreadSafeTraits<T> >
 class RefCountedThreadSafe : public subtle::RefCountedThreadSafeBase {
  public:
   static constexpr subtle::StartRefCountFromZeroTag kRefCountPreference =
       subtle::kStartRefCountFromZeroTag;

   explicit RefCountedThreadSafe()
       : subtle::RefCountedThreadSafeBase(T::kRefCountPreference) {}

   void AddRef() const { AddRefImpl(T::kRefCountPreference); }

   void Release() const {
     if (subtle::RefCountedThreadSafeBase::Release()) {
       ANALYZER_SKIP_THIS_PATH();
       Traits::Destruct(static_cast<const T*>(this));
     }
   }

  protected:
   ~RefCountedThreadSafe() = default;

  private:
   friend struct DefaultRefCountedThreadSafeTraits<T>;
   template <typename U>
   static void DeleteInternal(const U* x) {
     delete x;
   }

   void AddRefImpl(subtle::StartRefCountFromZeroTag) const {
     subtle::RefCountedThreadSafeBase::AddRef();
   }

   void AddRefImpl(subtle::StartRefCountFromOneTag) const {
     subtle::RefCountedThreadSafeBase::AddRefWithCheck();
   }

   DISALLOW_COPY_AND_ASSIGN(RefCountedThreadSafe);
 };

 //
 // A thread-safe wrapper for some piece of data so we can place other
 // things in scoped_refptrs<>.
 //
 template<typename T>
 class RefCountedData
     : public base::RefCountedThreadSafe< base::RefCountedData<T> > {
  public:
   RefCountedData() : data() {}
   RefCountedData(const T& in_value) : data(in_value) {}
   RefCountedData(T&& in_value) : data(std::move(in_value)) {}

   T data;

  private:
   friend class base::RefCountedThreadSafe<base::RefCountedData<T> >;
   ~RefCountedData() = default;
 };

 }  // namespace base

 #endif  // BASE_MEMORY_REF_COUNTED_H_
	// 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.

	#ifndef BASE_MEMORY_REF_COUNTED_H_
	#define BASE_MEMORY_REF_COUNTED_H_

	#include <stddef.h>

	#include <utility>

	#include "base/atomic_ref_count.h"
	#include "base/base_export.h"
	#include "base/compiler_specific.h"
	#include "base/gtest_prod_util.h"
	#include "base/logging.h"
	#include "base/macros.h"
	#include "base/memory/scoped_refptr.h"
	#include "base/sequence_checker.h"
	#include "base/threading/thread_collision_warner.h"
	#include "build/build_config.h"

	namespace base {
	namespace subtle {

	class BASE_EXPORT RefCountedBase {
	public:
	bool HasOneRef() const { return ref_count_ == 1; }
	bool HasAtLeastOneRef() const { return ref_count_ >= 1; }

	protected:
	explicit RefCountedBase(StartRefCountFromZeroTag) {
	#if DCHECK_IS_ON()
	sequence_checker_.DetachFromSequence();
	#endif
	}

	explicit RefCountedBase(StartRefCountFromOneTag) : ref_count_(1) {
	#if DCHECK_IS_ON()
	needs_adopt_ref_ = true;
	sequence_checker_.DetachFromSequence();
	#endif
	}

	~RefCountedBase() {
	#if DCHECK_IS_ON()
	DCHECK(in_dtor_) << "RefCounted object deleted without calling Release()";
	#endif
	}

	void AddRef() const {
	// TODO(maruel): Add back once it doesn't assert 500 times/sec.
	// Current thread books the critical section "AddRelease"
	// without release it.
	// DFAKE_SCOPED_LOCK_THREAD_LOCKED(add_release_);
	#if DCHECK_IS_ON()
	DCHECK(!in_dtor_);
	DCHECK(!needs_adopt_ref_)
	<< "This RefCounted object is created with non-zero reference count."
	<< " The first reference to such a object has to be made by AdoptRef or"
	<< " MakeRefCounted.";
	if (ref_count_ >= 1) {
	DCHECK(CalledOnValidSequence());
	}
	#endif

	AddRefImpl();
	}

	// Returns true if the object should self-delete.
	bool Release() const {
	--ref_count_;

	// TODO(maruel): Add back once it doesn't assert 500 times/sec.
	// Current thread books the critical section "AddRelease"
	// without release it.
	// DFAKE_SCOPED_LOCK_THREAD_LOCKED(add_release_);

	#if DCHECK_IS_ON()
	DCHECK(!in_dtor_);
	if (ref_count_ == 0)
	in_dtor_ = true;

	if (ref_count_ >= 1)
	DCHECK(CalledOnValidSequence());
	if (ref_count_ == 1)
	sequence_checker_.DetachFromSequence();
	#endif

	return ref_count_ == 0;
	}

	// Returns true if it is safe to read or write the object, from a thread
	// safety standpoint. Should be DCHECK'd from the methods of RefCounted
	// classes if there is a danger of objects being shared across threads.
	//
	// This produces fewer false positives than adding a separate SequenceChecker
	// into the subclass, because it automatically detaches from the sequence when
	// the reference count is 1 (and never fails if there is only one reference).
	//
	// This means unlike a separate SequenceChecker, it will permit a singly
	// referenced object to be passed between threads (not holding a reference on
	// the sending thread), but will trap if the sending thread holds onto a
	// reference, or if the object is accessed from multiple threads
	// simultaneously.
	bool IsOnValidSequence() const {
	#if DCHECK_IS_ON()
	return ref_count_ <= 1 \|\| CalledOnValidSequence();
	#else
	return true;
	#endif
	}

	private:
	template <typename U>
	friend scoped_refptr<U> base::AdoptRef(U*);

	FRIEND_TEST_ALL_PREFIXES(RefCountedDeathTest, TestOverflowCheck);

	void Adopted() const {
	#if DCHECK_IS_ON()
	DCHECK(needs_adopt_ref_);
	needs_adopt_ref_ = false;
	#endif
	}

	#if defined(ARCH_CPU_64_BITS)
	void AddRefImpl() const;
	#else
	void AddRefImpl() const { ++ref_count_; }
	#endif

	#if DCHECK_IS_ON()
	bool CalledOnValidSequence() const;
	#endif

	mutable uint32_t ref_count_ = 0;

	#if DCHECK_IS_ON()
	mutable bool needs_adopt_ref_ = false;
	mutable bool in_dtor_ = false;
	mutable SequenceChecker sequence_checker_;
	#endif

	DFAKE_MUTEX(add_release_);

	DISALLOW_COPY_AND_ASSIGN(RefCountedBase);
	};

	class BASE_EXPORT RefCountedThreadSafeBase {
	public:
	bool HasOneRef() const;
	bool HasAtLeastOneRef() const;

	protected:
	explicit constexpr RefCountedThreadSafeBase(StartRefCountFromZeroTag) {}
	explicit constexpr RefCountedThreadSafeBase(StartRefCountFromOneTag)
	: ref_count_(1) {
	#if DCHECK_IS_ON()
	needs_adopt_ref_ = true;
	#endif
	}

	#if DCHECK_IS_ON()
	~RefCountedThreadSafeBase();
	#else
	~RefCountedThreadSafeBase() = default;
	#endif

	// Release and AddRef are suitable for inlining on X86 because they generate
	// very small code sequences. On other platforms (ARM), it causes a size
	// regression and is probably not worth it.
	#if defined(ARCH_CPU_X86_FAMILY)
	// Returns true if the object should self-delete.
	bool Release() const { return ReleaseImpl(); }
	void AddRef() const { AddRefImpl(); }
	void AddRefWithCheck() const { AddRefWithCheckImpl(); }
	#else
	// Returns true if the object should self-delete.
	bool Release() const;
	void AddRef() const;
	void AddRefWithCheck() const;
	#endif

	private:
	template <typename U>
	friend scoped_refptr<U> base::AdoptRef(U*);

	void Adopted() const {
	#if DCHECK_IS_ON()
	DCHECK(needs_adopt_ref_);
	needs_adopt_ref_ = false;
	#endif
	}

	ALWAYS_INLINE void AddRefImpl() const {
	#if DCHECK_IS_ON()
	DCHECK(!in_dtor_);
	DCHECK(!needs_adopt_ref_)
	<< "This RefCounted object is created with non-zero reference count."
	<< " The first reference to such a object has to be made by AdoptRef or"
	<< " MakeRefCounted.";
	#endif
	ref_count_.Increment();
	}

	ALWAYS_INLINE void AddRefWithCheckImpl() const {
	#if DCHECK_IS_ON()
	DCHECK(!in_dtor_);
	DCHECK(!needs_adopt_ref_)
	<< "This RefCounted object is created with non-zero reference count."
	<< " The first reference to such a object has to be made by AdoptRef or"
	<< " MakeRefCounted.";
	#endif
	CHECK(ref_count_.Increment() > 0);
	}

	ALWAYS_INLINE bool ReleaseImpl() const {
	#if DCHECK_IS_ON()
	DCHECK(!in_dtor_);
	DCHECK(!ref_count_.IsZero());
	#endif
	if (!ref_count_.Decrement()) {
	#if DCHECK_IS_ON()
	in_dtor_ = true;
	#endif
	return true;
	}
	return false;
	}

	mutable AtomicRefCount ref_count_{0};
	#if DCHECK_IS_ON()
	mutable bool needs_adopt_ref_ = false;
	mutable bool in_dtor_ = false;
	#endif

	DISALLOW_COPY_AND_ASSIGN(RefCountedThreadSafeBase);
	};

	} // namespace subtle

	// ScopedAllowCrossThreadRefCountAccess disables the check documented on
	// RefCounted below for rare pre-existing use cases where thread-safety was
	// guaranteed through other means (e.g. explicit sequencing of calls across
	// execution sequences when bouncing between threads in order). New callers
	// should refrain from using this (callsites handling thread-safety through
	// locks should use RefCountedThreadSafe per the overhead of its atomics being
	// negligible compared to locks anyways and callsites doing explicit sequencing
	// should properly std::move() the ref to avoid hitting this check).
	// TODO(tzik): Cleanup existing use cases and remove
	// ScopedAllowCrossThreadRefCountAccess.
	class BASE_EXPORT ScopedAllowCrossThreadRefCountAccess final {
	public:
	#if DCHECK_IS_ON()
	ScopedAllowCrossThreadRefCountAccess();
	~ScopedAllowCrossThreadRefCountAccess();
	#else
	ScopedAllowCrossThreadRefCountAccess() {}
	~ScopedAllowCrossThreadRefCountAccess() {}
	#endif
	};

	//
	// A base class for reference counted classes. Otherwise, known as a cheap
	// knock-off of WebKit's RefCounted<T> class. To use this, just extend your
	// class from it like so:
	//
	// class MyFoo : public base::RefCounted<MyFoo> {
	// ...
	// private:
	// friend class base::RefCounted<MyFoo>;
	// ~MyFoo();
	// };
	//
	// You should always make your destructor non-public, to avoid any code deleting
	// the object accidently while there are references to it.
	//
	//
	// The ref count manipulation to RefCounted is NOT thread safe and has DCHECKs
	// to trap unsafe cross thread usage. A subclass instance of RefCounted can be
	// passed to another execution sequence only when its ref count is 1. If the ref
	// count is more than 1, the RefCounted class verifies the ref updates are made
	// on the same execution sequence as the previous ones. The subclass can also
	// manually call IsOnValidSequence to trap other non-thread-safe accesses; see
	// the documentation for that method.
	//
	//
	// The reference count starts from zero by default, and we intended to migrate
	// to start-from-one ref count. Put REQUIRE_ADOPTION_FOR_REFCOUNTED_TYPE() to
	// the ref counted class to opt-in.
	//
	// If an object has start-from-one ref count, the first scoped_refptr need to be
	// created by base::AdoptRef() or base::MakeRefCounted(). We can use
	// base::MakeRefCounted() to create create both type of ref counted object.
	//
	// The motivations to use start-from-one ref count are:
	// - Start-from-one ref count doesn't need the ref count increment for the
	// first reference.
	// - It can detect an invalid object acquisition for a being-deleted object
	// that has zero ref count. That tends to happen on custom deleter that
	// delays the deletion.
	// TODO(tzik): Implement invalid acquisition detection.
	// - Behavior parity to Blink's WTF::RefCounted, whose count starts from one.
	// And start-from-one ref count is a step to merge WTF::RefCounted into
	// base::RefCounted.
	//
	#define REQUIRE_ADOPTION_FOR_REFCOUNTED_TYPE() \
	static constexpr ::base::subtle::StartRefCountFromOneTag \
	kRefCountPreference = ::base::subtle::kStartRefCountFromOneTag

	template <class T, typename Traits>
	class RefCounted;

	template <typename T>
	struct DefaultRefCountedTraits {
	static void Destruct(const T* x) {
	RefCounted<T, DefaultRefCountedTraits>::DeleteInternal(x);
	}
	};

	template <class T, typename Traits = DefaultRefCountedTraits<T>>
	class RefCounted : public subtle::RefCountedBase {
	public:
	static constexpr subtle::StartRefCountFromZeroTag kRefCountPreference =
	subtle::kStartRefCountFromZeroTag;

	RefCounted() : subtle::RefCountedBase(T::kRefCountPreference) {}

	void AddRef() const {
	subtle::RefCountedBase::AddRef();
	}

	void Release() const {
	if (subtle::RefCountedBase::Release()) {
	// Prune the code paths which the static analyzer may take to simulate
	// object destruction. Use-after-free errors aren't possible given the
	// lifetime guarantees of the refcounting system.
	ANALYZER_SKIP_THIS_PATH();

	Traits::Destruct(static_cast<const T*>(this));
	}
	}

	protected:
	~RefCounted() = default;

	private:
	friend struct DefaultRefCountedTraits<T>;
	template <typename U>
	static void DeleteInternal(const U* x) {
	delete x;
	}

	DISALLOW_COPY_AND_ASSIGN(RefCounted);
	};

	// Forward declaration.
	template <class T, typename Traits> class RefCountedThreadSafe;

	// Default traits for RefCountedThreadSafe<T>. Deletes the object when its ref
	// count reaches 0. Overload to delete it on a different thread etc.
	template<typename T>
	struct DefaultRefCountedThreadSafeTraits {
	static void Destruct(const T* x) {
	// Delete through RefCountedThreadSafe to make child classes only need to be
	// friend with RefCountedThreadSafe instead of this struct, which is an
	// implementation detail.
	RefCountedThreadSafe<T,
	DefaultRefCountedThreadSafeTraits>::DeleteInternal(x);
	}
	};

	//
	// A thread-safe variant of RefCounted<T>
	//
	// class MyFoo : public base::RefCountedThreadSafe<MyFoo> {
	// ...
	// };
	//
	// If you're using the default trait, then you should add compile time
	// asserts that no one else is deleting your object. i.e.
	// private:
	// friend class base::RefCountedThreadSafe<MyFoo>;
	// ~MyFoo();
	//
	// We can use REQUIRE_ADOPTION_FOR_REFCOUNTED_TYPE() with RefCountedThreadSafe
	// too. See the comment above the RefCounted definition for details.
	template <class T, typename Traits = DefaultRefCountedThreadSafeTraits<T> >
	class RefCountedThreadSafe : public subtle::RefCountedThreadSafeBase {
	public:
	static constexpr subtle::StartRefCountFromZeroTag kRefCountPreference =
	subtle::kStartRefCountFromZeroTag;

	explicit RefCountedThreadSafe()
	: subtle::RefCountedThreadSafeBase(T::kRefCountPreference) {}

	void AddRef() const { AddRefImpl(T::kRefCountPreference); }

	void Release() const {
	if (subtle::RefCountedThreadSafeBase::Release()) {
	ANALYZER_SKIP_THIS_PATH();
	Traits::Destruct(static_cast<const T*>(this));
	}
	}

	protected:
	~RefCountedThreadSafe() = default;

	private:
	friend struct DefaultRefCountedThreadSafeTraits<T>;
	template <typename U>
	static void DeleteInternal(const U* x) {
	delete x;
	}

	void AddRefImpl(subtle::StartRefCountFromZeroTag) const {
	subtle::RefCountedThreadSafeBase::AddRef();
	}

	void AddRefImpl(subtle::StartRefCountFromOneTag) const {
	subtle::RefCountedThreadSafeBase::AddRefWithCheck();
	}

	DISALLOW_COPY_AND_ASSIGN(RefCountedThreadSafe);
	};

	//
	// A thread-safe wrapper for some piece of data so we can place other
	// things in scoped_refptrs<>.
	//
	template<typename T>
	class RefCountedData
	: public base::RefCountedThreadSafe< base::RefCountedData<T> > {
	public:
	RefCountedData() : data() {}
	RefCountedData(const T& in_value) : data(in_value) {}
	RefCountedData(T&& in_value) : data(std::move(in_value)) {}

	T data;

	private:
	friend class base::RefCountedThreadSafe<base::RefCountedData<T> >;
	~RefCountedData() = default;
	};

	} // namespace base

	#endif // BASE_MEMORY_REF_COUNTED_H_