// 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 #include #include #include #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_EACH_OBSERVER(Observer, observer_list_, OnFoo(this)); // } // // void NotifyBar(int x, int y) { // FOR_EACH_OBSERVER(Observer, observer_list_, OnBar(this, x, y)); // } // // private: // base::ObserverList observer_list_; // }; // // /////////////////////////////////////////////////////////////////////////////// namespace base { template class ObserverListThreadSafe; template class ObserverListBase : public SupportsWeakPtr> { 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. See // also the FOR_EACH_OBSERVER macro defined below. class Iterator { public: explicit Iterator(ObserverListBase* list); ~Iterator(); ObserverType* GetNext(); private: WeakPtr> list_; size_t index_; size_t max_index_; }; 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; typedef std::vector ListType; ListType observers_; int notify_depth_; NotificationType type_; friend class ObserverListBase::Iterator; DISALLOW_COPY_AND_ASSIGN(ObserverListBase); }; template ObserverListBase::Iterator::Iterator( ObserverListBase* list) : list_(list->AsWeakPtr()), index_(0), max_index_(list->type_ == NOTIFY_ALL ? std::numeric_limits::max() : list->observers_.size()) { ++list_->notify_depth_; } template ObserverListBase::Iterator::~Iterator() { if (list_.get() && --list_->notify_depth_ == 0) list_->Compact(); } template ObserverType* ObserverListBase::Iterator::GetNext() { if (!list_.get()) return nullptr; ListType& observers = list_->observers_; // Advance if the current element is null size_t max_index = std::min(max_index_, observers.size()); while (index_ < max_index && !observers[index_]) ++index_; return index_ < max_index ? observers[index_++] : nullptr; } template void ObserverListBase::AddObserver(ObserverType* obs) { DCHECK(obs); if (ContainsValue(observers_, obs)) { NOTREACHED() << "Observers can only be added once!"; return; } observers_.push_back(obs); } template void ObserverListBase::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 bool ObserverListBase::HasObserver( const ObserverType* observer) const { for (size_t i = 0; i < observers_.size(); ++i) { if (observers_[i] == observer) return true; } return false; } template void ObserverListBase::Clear() { if (notify_depth_) { for (typename ListType::iterator it = observers_.begin(); it != observers_.end(); ++it) { *it = nullptr; } } else { observers_.clear(); } } template void ObserverListBase::Compact() { observers_.erase( std::remove(observers_.begin(), observers_.end(), nullptr), observers_.end()); } template class ObserverList : public ObserverListBase { public: typedef typename ObserverListBase::NotificationType NotificationType; ObserverList() {} explicit ObserverList(NotificationType type) : ObserverListBase(type) {} ~ObserverList() { // When check_empty is true, assert that the list is empty on destruction. if (check_empty) { ObserverListBase::Compact(); DCHECK_EQ(ObserverListBase::size(), 0U); } } bool might_have_observers() const { return ObserverListBase::size() != 0; } }; #define FOR_EACH_OBSERVER(ObserverType, observer_list, func) \ do { \ if ((observer_list).might_have_observers()) { \ base::ObserverListBase::Iterator it_inside_observer_macro( \ &observer_list); \ ObserverType* obs; \ while ((obs = it_inside_observer_macro.GetNext()) != nullptr) \ obs->func; \ } \ } while (0) } // namespace base #endif // BASE_OBSERVER_LIST_H_