rtc_base/callback_list.h - src/ - Git at Google

 /*
  *  Copyright 2020 The WebRTC 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 in the root of the source
  *  tree. An additional intellectual property rights grant can be found
  *  in the file PATENTS.  All contributing project authors may
  *  be found in the AUTHORS file in the root of the source tree.
  */

 #ifndef RTC_BASE_CALLBACK_LIST_H_
 #define RTC_BASE_CALLBACK_LIST_H_

 #include <utility>
 #include <vector>

 #include "api/function_view.h"
 #include "rtc_base/checks.h"
 #include "rtc_base/system/assume.h"
 #include "rtc_base/system/inline.h"
 #include "rtc_base/system/rtc_export.h"
 #include "rtc_base/untyped_function.h"

 namespace webrtc {
 namespace callback_list_impl {

 class RTC_EXPORT CallbackListReceivers {
  public:
   CallbackListReceivers();
   CallbackListReceivers(const CallbackListReceivers&) = delete;
   CallbackListReceivers& operator=(const CallbackListReceivers&) = delete;
   CallbackListReceivers(CallbackListReceivers&&) = delete;
   CallbackListReceivers& operator=(CallbackListReceivers&&) = delete;
   ~CallbackListReceivers();

   template <typename UntypedFunctionArgsT>
   RTC_NO_INLINE void AddReceiver(const void* removal_tag,
                                  UntypedFunctionArgsT args) {
     RTC_CHECK(!send_in_progress_);
     RTC_DCHECK(removal_tag != nullptr);
     receivers_.push_back({removal_tag, UntypedFunction::Create(args)});
   }

   template <typename UntypedFunctionArgsT>
   RTC_NO_INLINE void AddReceiver(UntypedFunctionArgsT args) {
     RTC_CHECK(!send_in_progress_);
     receivers_.push_back({nullptr, UntypedFunction::Create(args)});
   }

   void RemoveReceivers(const void* removal_tag);

   void Foreach(rtc::FunctionView<void(UntypedFunction&)> fv);

  private:
   // Special protected pointer value that's used as a removal_tag for
   // receivers that want to unsubscribe from within a callback.
   // Note we could use `&receivers_` too, but since it's the first member
   // variable of the class, its address will be the same as the instance
   // CallbackList instance, so we take an extra step to avoid collision.
   const void* pending_removal_tag() const { return &send_in_progress_; }

   struct Callback {
     const void* removal_tag;
     UntypedFunction function;
   };

   std::vector<Callback> receivers_;
   bool send_in_progress_ = false;
 };

 extern template void CallbackListReceivers::AddReceiver(
     const void*,
     UntypedFunction::TrivialUntypedFunctionArgs<1>);
 extern template void CallbackListReceivers::AddReceiver(
     const void*,
     UntypedFunction::TrivialUntypedFunctionArgs<2>);
 extern template void CallbackListReceivers::AddReceiver(
     const void*,
     UntypedFunction::TrivialUntypedFunctionArgs<3>);
 extern template void CallbackListReceivers::AddReceiver(
     const void*,
     UntypedFunction::TrivialUntypedFunctionArgs<4>);
 extern template void CallbackListReceivers::AddReceiver(
     const void*,
     UntypedFunction::NontrivialUntypedFunctionArgs);
 extern template void CallbackListReceivers::AddReceiver(
     const void*,
     UntypedFunction::FunctionPointerUntypedFunctionArgs);

 extern template void CallbackListReceivers::AddReceiver(
     UntypedFunction::TrivialUntypedFunctionArgs<1>);
 extern template void CallbackListReceivers::AddReceiver(
     UntypedFunction::TrivialUntypedFunctionArgs<2>);
 extern template void CallbackListReceivers::AddReceiver(
     UntypedFunction::TrivialUntypedFunctionArgs<3>);
 extern template void CallbackListReceivers::AddReceiver(
     UntypedFunction::TrivialUntypedFunctionArgs<4>);
 extern template void CallbackListReceivers::AddReceiver(
     UntypedFunction::NontrivialUntypedFunctionArgs);
 extern template void CallbackListReceivers::AddReceiver(
     UntypedFunction::FunctionPointerUntypedFunctionArgs);

 }  // namespace callback_list_impl

 // A collection of receivers (callable objects) that can be called all at once.
 // Optimized for minimal binary size. The template arguments dictate what
 // signature the callbacks must have; for example, a CallbackList<int, float>
 // will require callbacks with signature void(int, float).
 //
 // CallbackList is neither copyable nor movable (could easily be made movable if
 // necessary). Callbacks must be movable, but need not be copyable.
 //
 // Usage example:
 //
 //   // Declaration (usually a member variable).
 //   CallbackList<int, float> foo_;
 //
 //   // Register callbacks. This can be done zero or more times. The
 //   // callbacks must accept the arguments types listed in the CallbackList's
 //   // template argument list, and must return void.
 //   foo_.AddReceiver([...](int a, float b) {...});  // Lambda.
 //   foo_.AddReceiver(SomeFunction);                 // Function pointer.
 //
 //   // Call the zero or more receivers, one after the other.
 //   foo_.Send(17, 3.14);
 //
 // Callback lifetime considerations
 // --------------------------------
 //
 // CallbackList::AddReceiver() takes ownership of the given callback by moving
 // it in place. The callback can be any callable object; in particular, it may
 // have a nontrivial destructor, which will be run when the CallbackList is
 // destroyed. The callback may thus access data via any type of smart pointer,
 // expressing e.g. unique, shared, or weak ownership. Of course, if the data is
 // guaranteed to outlive the callback, a plain raw pointer can be used.
 //
 // Take care when trying to have the callback own reference-counted data. The
 // CallbackList will keep the callback alive, and the callback will keep its
 // data alive, so as usual with reference-counted ownership, keep an eye out for
 // cycles!
 //
 // Thread safety
 // -------------
 //
 // Like most C++ types, CallbackList is thread compatible: it's not safe to
 // access it concurrently from multiple threads, but it can be made safe if it
 // is protected by a mutex, for example.
 //
 // Excercise some care when deciding what mutexes to hold when you call
 // CallbackList::Send(). In particular, do not hold mutexes that callbacks may
 // need to grab. If a larger object has a CallbackList member and a single mutex
 // that protects all of its data members, this may e.g. make it necessary to
 // protect its CallbackList with a separate mutex; otherwise, there will be a
 // deadlock if the callbacks try to access the object.
 //
 // CallbackList as a class data member
 // -----------------------------------
 //
 // CallbackList is a normal C++ data type, and should be private when it is a
 // data member of a class. For thread safety reasons (see above), it is likely
 // best to not have an accessor for the entire CallbackList, and instead only
 // allow callers to add callbacks:
 //
 //   template <typename F>
 //   void AddFooCallback(F&& callback) {
 //     // Maybe grab a mutex here?
 //     foo_callbacks_.AddReceiver(std::forward<F>(callback));
 //   }
 //
 template <typename... ArgT>
 class CallbackList {
  public:
   CallbackList() = default;
   CallbackList(const CallbackList&) = delete;
   CallbackList& operator=(const CallbackList&) = delete;
   CallbackList(CallbackList&&) = delete;
   CallbackList& operator=(CallbackList&&) = delete;

   // Adds a new receiver. The receiver (a callable object or a function pointer)
   // must be movable, but need not be copyable. Its call signature should be
   // `void(ArgT...)`. The removal tag is a pointer to an arbitrary object that
   // you own, and that will stay alive until the CallbackList is gone, or until
   // all receivers using it as a removal tag have been removed; you can use it
   // to remove the receiver.
   template <typename F>
   void AddReceiver(const void* removal_tag, F&& f) {
     receivers_.AddReceiver(
         removal_tag,
         UntypedFunction::PrepareArgs<void(ArgT...)>(std::forward<F>(f)));
   }

   // Adds a new receiver with no removal tag.
   template <typename F>
   void AddReceiver(F&& f) {
     receivers_.AddReceiver(
         UntypedFunction::PrepareArgs<void(ArgT...)>(std::forward<F>(f)));
   }

   // Removes all receivers that were added with the given removal tag.
   void RemoveReceivers(const void* removal_tag) {
     receivers_.RemoveReceivers(removal_tag);
   }

   // Calls all receivers with the given arguments. While the Send is in
   // progress, no method calls are allowed; specifically, this means that the
   // callbacks may not do anything with this CallbackList instance.
   //
   // Note: Receivers are called serially, but not necessarily in the same order
   // they were added.
   template <typename... ArgU>
   void Send(ArgU&&... args) {
     receivers_.Foreach([&](UntypedFunction& f) {
       f.Call<void(ArgT...)>(std::forward<ArgU>(args)...);
     });
   }

  private:
   callback_list_impl::CallbackListReceivers receivers_;
 };

 }  // namespace webrtc

 #endif  // RTC_BASE_CALLBACK_LIST_H_
	/*
	* Copyright 2020 The WebRTC 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 in the root of the source
	* tree. An additional intellectual property rights grant can be found
	* in the file PATENTS. All contributing project authors may
	* be found in the AUTHORS file in the root of the source tree.
	*/

	#ifndef RTC_BASE_CALLBACK_LIST_H_
	#define RTC_BASE_CALLBACK_LIST_H_

	#include <utility>
	#include <vector>

	#include "api/function_view.h"
	#include "rtc_base/checks.h"
	#include "rtc_base/system/assume.h"
	#include "rtc_base/system/inline.h"
	#include "rtc_base/system/rtc_export.h"
	#include "rtc_base/untyped_function.h"

	namespace webrtc {
	namespace callback_list_impl {

	class RTC_EXPORT CallbackListReceivers {
	public:
	CallbackListReceivers();
	CallbackListReceivers(const CallbackListReceivers&) = delete;
	CallbackListReceivers& operator=(const CallbackListReceivers&) = delete;
	CallbackListReceivers(CallbackListReceivers&&) = delete;
	CallbackListReceivers& operator=(CallbackListReceivers&&) = delete;
	~CallbackListReceivers();

	template <typename UntypedFunctionArgsT>
	RTC_NO_INLINE void AddReceiver(const void* removal_tag,
	UntypedFunctionArgsT args) {
	RTC_CHECK(!send_in_progress_);
	RTC_DCHECK(removal_tag != nullptr);
	receivers_.push_back({removal_tag, UntypedFunction::Create(args)});
	}

	template <typename UntypedFunctionArgsT>
	RTC_NO_INLINE void AddReceiver(UntypedFunctionArgsT args) {
	RTC_CHECK(!send_in_progress_);
	receivers_.push_back({nullptr, UntypedFunction::Create(args)});
	}

	void RemoveReceivers(const void* removal_tag);

	void Foreach(rtc::FunctionView<void(UntypedFunction&)> fv);

	private:
	// Special protected pointer value that's used as a removal_tag for
	// receivers that want to unsubscribe from within a callback.
	// Note we could use `&receivers_` too, but since it's the first member
	// variable of the class, its address will be the same as the instance
	// CallbackList instance, so we take an extra step to avoid collision.
	const void* pending_removal_tag() const { return &send_in_progress_; }

	struct Callback {
	const void* removal_tag;
	UntypedFunction function;
	};

	std::vector<Callback> receivers_;
	bool send_in_progress_ = false;
	};

	extern template void CallbackListReceivers::AddReceiver(
	const void*,
	UntypedFunction::TrivialUntypedFunctionArgs<1>);
	extern template void CallbackListReceivers::AddReceiver(
	const void*,
	UntypedFunction::TrivialUntypedFunctionArgs<2>);
	extern template void CallbackListReceivers::AddReceiver(
	const void*,
	UntypedFunction::TrivialUntypedFunctionArgs<3>);
	extern template void CallbackListReceivers::AddReceiver(
	const void*,
	UntypedFunction::TrivialUntypedFunctionArgs<4>);
	extern template void CallbackListReceivers::AddReceiver(
	const void*,
	UntypedFunction::NontrivialUntypedFunctionArgs);
	extern template void CallbackListReceivers::AddReceiver(
	const void*,
	UntypedFunction::FunctionPointerUntypedFunctionArgs);

	extern template void CallbackListReceivers::AddReceiver(
	UntypedFunction::TrivialUntypedFunctionArgs<1>);
	extern template void CallbackListReceivers::AddReceiver(
	UntypedFunction::TrivialUntypedFunctionArgs<2>);
	extern template void CallbackListReceivers::AddReceiver(
	UntypedFunction::TrivialUntypedFunctionArgs<3>);
	extern template void CallbackListReceivers::AddReceiver(
	UntypedFunction::TrivialUntypedFunctionArgs<4>);
	extern template void CallbackListReceivers::AddReceiver(
	UntypedFunction::NontrivialUntypedFunctionArgs);
	extern template void CallbackListReceivers::AddReceiver(
	UntypedFunction::FunctionPointerUntypedFunctionArgs);

	} // namespace callback_list_impl

	// A collection of receivers (callable objects) that can be called all at once.
	// Optimized for minimal binary size. The template arguments dictate what
	// signature the callbacks must have; for example, a CallbackList<int, float>
	// will require callbacks with signature void(int, float).
	//
	// CallbackList is neither copyable nor movable (could easily be made movable if
	// necessary). Callbacks must be movable, but need not be copyable.
	//
	// Usage example:
	//
	// // Declaration (usually a member variable).
	// CallbackList<int, float> foo_;
	//
	// // Register callbacks. This can be done zero or more times. The
	// // callbacks must accept the arguments types listed in the CallbackList's
	// // template argument list, and must return void.
	// foo_.AddReceiver([...](int a, float b) {...}); // Lambda.
	// foo_.AddReceiver(SomeFunction); // Function pointer.
	//
	// // Call the zero or more receivers, one after the other.
	// foo_.Send(17, 3.14);
	//
	// Callback lifetime considerations
	// --------------------------------
	//
	// CallbackList::AddReceiver() takes ownership of the given callback by moving
	// it in place. The callback can be any callable object; in particular, it may
	// have a nontrivial destructor, which will be run when the CallbackList is
	// destroyed. The callback may thus access data via any type of smart pointer,
	// expressing e.g. unique, shared, or weak ownership. Of course, if the data is
	// guaranteed to outlive the callback, a plain raw pointer can be used.
	//
	// Take care when trying to have the callback own reference-counted data. The
	// CallbackList will keep the callback alive, and the callback will keep its
	// data alive, so as usual with reference-counted ownership, keep an eye out for
	// cycles!
	//
	// Thread safety
	// -------------
	//
	// Like most C++ types, CallbackList is thread compatible: it's not safe to
	// access it concurrently from multiple threads, but it can be made safe if it
	// is protected by a mutex, for example.
	//
	// Excercise some care when deciding what mutexes to hold when you call
	// CallbackList::Send(). In particular, do not hold mutexes that callbacks may
	// need to grab. If a larger object has a CallbackList member and a single mutex
	// that protects all of its data members, this may e.g. make it necessary to
	// protect its CallbackList with a separate mutex; otherwise, there will be a
	// deadlock if the callbacks try to access the object.
	//
	// CallbackList as a class data member
	// -----------------------------------
	//
	// CallbackList is a normal C++ data type, and should be private when it is a
	// data member of a class. For thread safety reasons (see above), it is likely
	// best to not have an accessor for the entire CallbackList, and instead only
	// allow callers to add callbacks:
	//
	// template <typename F>
	// void AddFooCallback(F&& callback) {
	// // Maybe grab a mutex here?
	// foo_callbacks_.AddReceiver(std::forward<F>(callback));
	// }
	//
	template <typename... ArgT>
	class CallbackList {
	public:
	CallbackList() = default;
	CallbackList(const CallbackList&) = delete;
	CallbackList& operator=(const CallbackList&) = delete;
	CallbackList(CallbackList&&) = delete;
	CallbackList& operator=(CallbackList&&) = delete;

	// Adds a new receiver. The receiver (a callable object or a function pointer)
	// must be movable, but need not be copyable. Its call signature should be
	// `void(ArgT...)`. The removal tag is a pointer to an arbitrary object that
	// you own, and that will stay alive until the CallbackList is gone, or until
	// all receivers using it as a removal tag have been removed; you can use it
	// to remove the receiver.
	template <typename F>
	void AddReceiver(const void* removal_tag, F&& f) {
	receivers_.AddReceiver(
	removal_tag,
	UntypedFunction::PrepareArgs<void(ArgT...)>(std::forward<F>(f)));
	}

	// Adds a new receiver with no removal tag.
	template <typename F>
	void AddReceiver(F&& f) {
	receivers_.AddReceiver(
	UntypedFunction::PrepareArgs<void(ArgT...)>(std::forward<F>(f)));
	}

	// Removes all receivers that were added with the given removal tag.
	void RemoveReceivers(const void* removal_tag) {
	receivers_.RemoveReceivers(removal_tag);
	}

	// Calls all receivers with the given arguments. While the Send is in
	// progress, no method calls are allowed; specifically, this means that the
	// callbacks may not do anything with this CallbackList instance.
	//
	// Note: Receivers are called serially, but not necessarily in the same order
	// they were added.
	template <typename... ArgU>
	void Send(ArgU&&... args) {
	receivers_.Foreach([&](UntypedFunction& f) {
	f.Call<void(ArgT...)>(std::forward<ArgU>(args)...);
	});
	}

	private:
	callback_list_impl::CallbackListReceivers receivers_;
	};

	} // namespace webrtc

	#endif // RTC_BASE_CALLBACK_LIST_H_