base/observer_list.h - platform/external/libchrome - Gitiles

 // Copyright (c) 2011 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_OBSERVER_LIST_H_
 #define BASE_OBSERVER_LIST_H_

 #include <stddef.h>

 #include <algorithm>
 #include <limits>
 #include <vector>

 #include "base/gtest_prod_util.h"
 #include "base/logging.h"
 #include "base/macros.h"
 #include "base/memory/weak_ptr.h"
 #include "base/stl_util.h"

 ///////////////////////////////////////////////////////////////////////////////
 //
 // OVERVIEW:
 //
 //   A container for a list of observers.  Unlike a normal STL vector or list,
 //   this container can be modified during iteration without invalidating the
 //   iterator.  So, it safely handles the case of an observer removing itself
 //   or other observers from the list while observers are being notified.
 //
 // TYPICAL USAGE:
 //
 //   class MyWidget {
 //    public:
 //     ...
 //
 //     class Observer {
 //      public:
 //       virtual void OnFoo(MyWidget* w) = 0;
 //       virtual void OnBar(MyWidget* w, int x, int y) = 0;
 //     };
 //
 //     void AddObserver(Observer* obs) {
 //       observer_list_.AddObserver(obs);
 //     }
 //
 //     void RemoveObserver(Observer* obs) {
 //       observer_list_.RemoveObserver(obs);
 //     }
 //
 //     void NotifyFoo() {
 //       for (auto& observer : observer_list_)
 //         observer.OnFoo(this);
 //     }
 //
 //     void NotifyBar(int x, int y) {
 //       for (FooList::iterator i = observer_list.begin(),
 //           e = observer_list.end(); i != e; ++i)
 //        i->OnBar(this, x, y);
 //     }
 //
 //    private:
 //     base::ObserverList<Observer> observer_list_;
 //   };
 //
 //
 ///////////////////////////////////////////////////////////////////////////////

 namespace base {

 template <typename ObserverType>
 class ObserverListThreadSafe;

 template <class ObserverType>
 class ObserverListBase
     : public SupportsWeakPtr<ObserverListBase<ObserverType>> {
  public:
   // Enumeration of which observers are notified.
   enum NotificationType {
     // Specifies that any observers added during notification are notified.
     // This is the default type if non type is provided to the constructor.
     NOTIFY_ALL,

     // Specifies that observers added while sending out notification are not
     // notified.
     NOTIFY_EXISTING_ONLY
   };

   // An iterator class that can be used to access the list of observers.
   template <class ContainerType>
   class Iter {
    public:
     Iter();
     explicit Iter(ContainerType* list);
     ~Iter();

     // A workaround for C2244. MSVC requires fully qualified type name for
     // return type on a function definition to match a function declaration.
     using ThisType =
         typename ObserverListBase<ObserverType>::template Iter<ContainerType>;

     bool operator==(const Iter& other) const;
     bool operator!=(const Iter& other) const;
     ThisType& operator++();
     ObserverType* operator->() const;
     ObserverType& operator*() const;

    private:
     FRIEND_TEST_ALL_PREFIXES(ObserverListTest, BasicStdIterator);
     FRIEND_TEST_ALL_PREFIXES(ObserverListTest, StdIteratorRemoveFront);

     ObserverType* GetCurrent() const;
     void EnsureValidIndex();

     size_t clamped_max_index() const {
       return std::min(max_index_, list_->observers_.size());
     }

     bool is_end() const { return !list_ || index_ == clamped_max_index(); }

     WeakPtr<ObserverListBase<ObserverType>> list_;
     // When initially constructed and each time the iterator is incremented,
     // |index_| is guaranteed to point to a non-null index if the iterator
     // has not reached the end of the ObserverList.
     size_t index_;
     size_t max_index_;
   };

   using Iterator = Iter<ObserverListBase<ObserverType>>;

   using iterator = Iter<ObserverListBase<ObserverType>>;
   iterator begin() {
     // An optimization: do not involve weak pointers for empty list.
     // Note: can't use ?: operator here due to some MSVC bug (unit tests fail)
     if (observers_.empty())
       return iterator();
     return iterator(this);
   }
   iterator end() { return iterator(); }

   using const_iterator = Iter<const ObserverListBase<ObserverType>>;
   const_iterator begin() const {
     if (observers_.empty())
       return const_iterator();
     return const_iterator(this);
   }
   const_iterator end() const { return const_iterator(); }

   ObserverListBase() : notify_depth_(0), type_(NOTIFY_ALL) {}
   explicit ObserverListBase(NotificationType type)
       : notify_depth_(0), type_(type) {}

   // Add an observer to the list.  An observer should not be added to
   // the same list more than once.
   void AddObserver(ObserverType* obs);

   // Remove an observer from the list if it is in the list.
   void RemoveObserver(ObserverType* obs);

   // Determine whether a particular observer is in the list.
   bool HasObserver(const ObserverType* observer) const;

   void Clear();

  protected:
   size_t size() const { return observers_.size(); }

   void Compact();

  private:
   friend class ObserverListThreadSafe<ObserverType>;

   typedef std::vector<ObserverType*> ListType;

   ListType observers_;
   int notify_depth_;
   NotificationType type_;

   template <class ContainerType>
   friend class Iter;

   DISALLOW_COPY_AND_ASSIGN(ObserverListBase);
 };

 template <class ObserverType>
 template <class ContainerType>
 ObserverListBase<ObserverType>::Iter<ContainerType>::Iter()
     : index_(0), max_index_(0) {}

 template <class ObserverType>
 template <class ContainerType>
 ObserverListBase<ObserverType>::Iter<ContainerType>::Iter(ContainerType* list)
     : list_(const_cast<ObserverListBase<ObserverType>*>(list)->AsWeakPtr()),
       index_(0),
       max_index_(list->type_ == NOTIFY_ALL ? std::numeric_limits<size_t>::max()
                                            : list->observers_.size()) {
   EnsureValidIndex();
   DCHECK(list_);
   ++list_->notify_depth_;
 }

 template <class ObserverType>
 template <class ContainerType>
 ObserverListBase<ObserverType>::Iter<ContainerType>::~Iter() {
   if (list_ && --list_->notify_depth_ == 0)
     list_->Compact();
 }

 template <class ObserverType>
 template <class ContainerType>
 bool ObserverListBase<ObserverType>::Iter<ContainerType>::operator==(
     const Iter& other) const {
   if (is_end() && other.is_end())
     return true;
   return list_.get() == other.list_.get() && index_ == other.index_;
 }

 template <class ObserverType>
 template <class ContainerType>
 bool ObserverListBase<ObserverType>::Iter<ContainerType>::operator!=(
     const Iter& other) const {
   return !operator==(other);
 }

 template <class ObserverType>
 template <class ContainerType>
 typename ObserverListBase<ObserverType>::template Iter<ContainerType>&
     ObserverListBase<ObserverType>::Iter<ContainerType>::operator++() {
   if (list_) {
     ++index_;
     EnsureValidIndex();
   }
   return *this;
 }

 template <class ObserverType>
 template <class ContainerType>
 ObserverType* ObserverListBase<ObserverType>::Iter<ContainerType>::operator->()
     const {
   ObserverType* current = GetCurrent();
   DCHECK(current);
   return current;
 }

 template <class ObserverType>
 template <class ContainerType>
 ObserverType& ObserverListBase<ObserverType>::Iter<ContainerType>::operator*()
     const {
   ObserverType* current = GetCurrent();
   DCHECK(current);
   return *current;
 }

 template <class ObserverType>
 template <class ContainerType>
 ObserverType* ObserverListBase<ObserverType>::Iter<ContainerType>::GetCurrent()
     const {
   if (!list_)
     return nullptr;
   return index_ < clamped_max_index() ? list_->observers_[index_] : nullptr;
 }

 template <class ObserverType>
 template <class ContainerType>
 void ObserverListBase<ObserverType>::Iter<ContainerType>::EnsureValidIndex() {
   if (!list_)
     return;

   size_t max_index = clamped_max_index();
   while (index_ < max_index && !list_->observers_[index_])
     ++index_;
 }

 template <class ObserverType>
 void ObserverListBase<ObserverType>::AddObserver(ObserverType* obs) {
   DCHECK(obs);
   if (ContainsValue(observers_, obs)) {
     NOTREACHED() << "Observers can only be added once!";
     return;
   }
   observers_.push_back(obs);
 }

 template <class ObserverType>
 void ObserverListBase<ObserverType>::RemoveObserver(ObserverType* obs) {
   DCHECK(obs);
   typename ListType::iterator it =
     std::find(observers_.begin(), observers_.end(), obs);
   if (it != observers_.end()) {
     if (notify_depth_) {
       *it = nullptr;
     } else {
       observers_.erase(it);
     }
   }
 }

 template <class ObserverType>
 bool ObserverListBase<ObserverType>::HasObserver(
     const ObserverType* observer) const {
   for (size_t i = 0; i < observers_.size(); ++i) {
     if (observers_[i] == observer)
       return true;
   }
   return false;
 }

 template <class ObserverType>
 void ObserverListBase<ObserverType>::Clear() {
   if (notify_depth_) {
     for (typename ListType::iterator it = observers_.begin();
       it != observers_.end(); ++it) {
       *it = nullptr;
     }
   } else {
     observers_.clear();
   }
 }

 template <class ObserverType>
 void ObserverListBase<ObserverType>::Compact() {
   observers_.erase(std::remove(observers_.begin(), observers_.end(), nullptr),
                    observers_.end());
 }

 template <class ObserverType, bool check_empty = false>
 class ObserverList : public ObserverListBase<ObserverType> {
  public:
   typedef typename ObserverListBase<ObserverType>::NotificationType
       NotificationType;

   ObserverList() {}
   explicit ObserverList(NotificationType type)
       : ObserverListBase<ObserverType>(type) {}

   ~ObserverList() {
     // When check_empty is true, assert that the list is empty on destruction.
     if (check_empty) {
       ObserverListBase<ObserverType>::Compact();
       DCHECK_EQ(ObserverListBase<ObserverType>::size(), 0U);
     }
   }

   bool might_have_observers() const {
     return ObserverListBase<ObserverType>::size() != 0;
   }
 };

 }  // namespace base

 #endif  // BASE_OBSERVER_LIST_H_
	// Copyright (c) 2011 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_OBSERVER_LIST_H_
	#define BASE_OBSERVER_LIST_H_

	#include <stddef.h>

	#include <algorithm>
	#include <limits>
	#include <vector>

	#include "base/gtest_prod_util.h"
	#include "base/logging.h"
	#include "base/macros.h"
	#include "base/memory/weak_ptr.h"
	#include "base/stl_util.h"

	///////////////////////////////////////////////////////////////////////////////
	//
	// OVERVIEW:
	//
	// A container for a list of observers. Unlike a normal STL vector or list,
	// this container can be modified during iteration without invalidating the
	// iterator. So, it safely handles the case of an observer removing itself
	// or other observers from the list while observers are being notified.
	//
	// TYPICAL USAGE:
	//
	// class MyWidget {
	// public:
	// ...
	//
	// class Observer {
	// public:
	// virtual void OnFoo(MyWidget* w) = 0;
	// virtual void OnBar(MyWidget* w, int x, int y) = 0;
	// };
	//
	// void AddObserver(Observer* obs) {
	// observer_list_.AddObserver(obs);
	// }
	//
	// void RemoveObserver(Observer* obs) {
	// observer_list_.RemoveObserver(obs);
	// }
	//
	// void NotifyFoo() {
	// for (auto& observer : observer_list_)
	// observer.OnFoo(this);
	// }
	//
	// void NotifyBar(int x, int y) {
	// for (FooList::iterator i = observer_list.begin(),
	// e = observer_list.end(); i != e; ++i)
	// i->OnBar(this, x, y);
	// }
	//
	// private:
	// base::ObserverList<Observer> observer_list_;
	// };
	//
	//
	///////////////////////////////////////////////////////////////////////////////

	namespace base {

	template <typename ObserverType>
	class ObserverListThreadSafe;

	template <class ObserverType>
	class ObserverListBase
	: public SupportsWeakPtr<ObserverListBase<ObserverType>> {
	public:
	// Enumeration of which observers are notified.
	enum NotificationType {
	// Specifies that any observers added during notification are notified.
	// This is the default type if non type is provided to the constructor.
	NOTIFY_ALL,

	// Specifies that observers added while sending out notification are not
	// notified.
	NOTIFY_EXISTING_ONLY
	};

	// An iterator class that can be used to access the list of observers.
	template <class ContainerType>
	class Iter {
	public:
	Iter();
	explicit Iter(ContainerType* list);
	~Iter();

	// A workaround for C2244. MSVC requires fully qualified type name for
	// return type on a function definition to match a function declaration.
	using ThisType =
	typename ObserverListBase<ObserverType>::template Iter<ContainerType>;

	bool operator==(const Iter& other) const;
	bool operator!=(const Iter& other) const;
	ThisType& operator++();
	ObserverType* operator->() const;
	ObserverType& operator*() const;

	private:
	FRIEND_TEST_ALL_PREFIXES(ObserverListTest, BasicStdIterator);
	FRIEND_TEST_ALL_PREFIXES(ObserverListTest, StdIteratorRemoveFront);

	ObserverType* GetCurrent() const;
	void EnsureValidIndex();

	size_t clamped_max_index() const {
	return std::min(max_index_, list_->observers_.size());
	}

	bool is_end() const { return !list_ \|\| index_ == clamped_max_index(); }

	WeakPtr<ObserverListBase<ObserverType>> list_;
	// When initially constructed and each time the iterator is incremented,
	// \|index_\| is guaranteed to point to a non-null index if the iterator
	// has not reached the end of the ObserverList.
	size_t index_;
	size_t max_index_;
	};

	using Iterator = Iter<ObserverListBase<ObserverType>>;

	using iterator = Iter<ObserverListBase<ObserverType>>;
	iterator begin() {
	// An optimization: do not involve weak pointers for empty list.
	// Note: can't use ?: operator here due to some MSVC bug (unit tests fail)
	if (observers_.empty())
	return iterator();
	return iterator(this);
	}
	iterator end() { return iterator(); }

	using const_iterator = Iter<const ObserverListBase<ObserverType>>;
	const_iterator begin() const {
	if (observers_.empty())
	return const_iterator();
	return const_iterator(this);
	}
	const_iterator end() const { return const_iterator(); }

	ObserverListBase() : notify_depth_(0), type_(NOTIFY_ALL) {}
	explicit ObserverListBase(NotificationType type)
	: notify_depth_(0), type_(type) {}

	// Add an observer to the list. An observer should not be added to
	// the same list more than once.
	void AddObserver(ObserverType* obs);

	// Remove an observer from the list if it is in the list.
	void RemoveObserver(ObserverType* obs);

	// Determine whether a particular observer is in the list.
	bool HasObserver(const ObserverType* observer) const;

	void Clear();

	protected:
	size_t size() const { return observers_.size(); }

	void Compact();

	private:
	friend class ObserverListThreadSafe<ObserverType>;

	typedef std::vector<ObserverType*> ListType;

	ListType observers_;
	int notify_depth_;
	NotificationType type_;

	template <class ContainerType>
	friend class Iter;

	DISALLOW_COPY_AND_ASSIGN(ObserverListBase);
	};

	template <class ObserverType>
	template <class ContainerType>
	ObserverListBase<ObserverType>::Iter<ContainerType>::Iter()
	: index_(0), max_index_(0) {}

	template <class ObserverType>
	template <class ContainerType>
	ObserverListBase<ObserverType>::Iter<ContainerType>::Iter(ContainerType* list)
	: list_(const_cast<ObserverListBase<ObserverType>*>(list)->AsWeakPtr()),
	index_(0),
	max_index_(list->type_ == NOTIFY_ALL ? std::numeric_limits<size_t>::max()
	: list->observers_.size()) {
	EnsureValidIndex();
	DCHECK(list_);
	++list_->notify_depth_;
	}

	template <class ObserverType>
	template <class ContainerType>
	ObserverListBase<ObserverType>::Iter<ContainerType>::~Iter() {
	if (list_ && --list_->notify_depth_ == 0)
	list_->Compact();
	}

	template <class ObserverType>
	template <class ContainerType>
	bool ObserverListBase<ObserverType>::Iter<ContainerType>::operator==(
	const Iter& other) const {
	if (is_end() && other.is_end())
	return true;
	return list_.get() == other.list_.get() && index_ == other.index_;
	}

	template <class ObserverType>
	template <class ContainerType>
	bool ObserverListBase<ObserverType>::Iter<ContainerType>::operator!=(
	const Iter& other) const {
	return !operator==(other);
	}

	template <class ObserverType>
	template <class ContainerType>
	typename ObserverListBase<ObserverType>::template Iter<ContainerType>&
	ObserverListBase<ObserverType>::Iter<ContainerType>::operator++() {
	if (list_) {
	++index_;
	EnsureValidIndex();
	}
	return *this;
	}

	template <class ObserverType>
	template <class ContainerType>
	ObserverType* ObserverListBase<ObserverType>::Iter<ContainerType>::operator->()
	const {
	ObserverType* current = GetCurrent();
	DCHECK(current);
	return current;
	}

	template <class ObserverType>
	template <class ContainerType>
	ObserverType& ObserverListBase<ObserverType>::Iter<ContainerType>::operator*()
	const {
	ObserverType* current = GetCurrent();
	DCHECK(current);
	return *current;
	}

	template <class ObserverType>
	template <class ContainerType>
	ObserverType* ObserverListBase<ObserverType>::Iter<ContainerType>::GetCurrent()
	const {
	if (!list_)
	return nullptr;
	return index_ < clamped_max_index() ? list_->observers_[index_] : nullptr;
	}

	template <class ObserverType>
	template <class ContainerType>
	void ObserverListBase<ObserverType>::Iter<ContainerType>::EnsureValidIndex() {
	if (!list_)
	return;

	size_t max_index = clamped_max_index();
	while (index_ < max_index && !list_->observers_[index_])
	++index_;
	}

	template <class ObserverType>
	void ObserverListBase<ObserverType>::AddObserver(ObserverType* obs) {
	DCHECK(obs);
	if (ContainsValue(observers_, obs)) {
	NOTREACHED() << "Observers can only be added once!";
	return;
	}
	observers_.push_back(obs);
	}

	template <class ObserverType>
	void ObserverListBase<ObserverType>::RemoveObserver(ObserverType* obs) {
	DCHECK(obs);
	typename ListType::iterator it =
	std::find(observers_.begin(), observers_.end(), obs);
	if (it != observers_.end()) {
	if (notify_depth_) {
	*it = nullptr;
	} else {
	observers_.erase(it);
	}
	}
	}

	template <class ObserverType>
	bool ObserverListBase<ObserverType>::HasObserver(
	const ObserverType* observer) const {
	for (size_t i = 0; i < observers_.size(); ++i) {
	if (observers_[i] == observer)
	return true;
	}
	return false;
	}

	template <class ObserverType>
	void ObserverListBase<ObserverType>::Clear() {
	if (notify_depth_) {
	for (typename ListType::iterator it = observers_.begin();
	it != observers_.end(); ++it) {
	*it = nullptr;
	}
	} else {
	observers_.clear();
	}
	}

	template <class ObserverType>
	void ObserverListBase<ObserverType>::Compact() {
	observers_.erase(std::remove(observers_.begin(), observers_.end(), nullptr),
	observers_.end());
	}

	template <class ObserverType, bool check_empty = false>
	class ObserverList : public ObserverListBase<ObserverType> {
	public:
	typedef typename ObserverListBase<ObserverType>::NotificationType
	NotificationType;

	ObserverList() {}
	explicit ObserverList(NotificationType type)
	: ObserverListBase<ObserverType>(type) {}

	~ObserverList() {
	// When check_empty is true, assert that the list is empty on destruction.
	if (check_empty) {
	ObserverListBase<ObserverType>::Compact();
	DCHECK_EQ(ObserverListBase<ObserverType>::size(), 0U);
	}
	}

	bool might_have_observers() const {
	return ObserverListBase<ObserverType>::size() != 0;
	}
	};

	} // namespace base

	#endif // BASE_OBSERVER_LIST_H_