src/util/signal-signal.hpp - ndn-cxx - Gitiles

 /* -*- Mode:C++; c-file-style:"gnu"; indent-tabs-mode:nil; -*- */
 /**
  * Copyright (c) 2013-2015 Regents of the University of California.
  *
  * This file is part of ndn-cxx library (NDN C++ library with eXperimental eXtensions).
  *
  * ndn-cxx library is free software: you can redistribute it and/or modify it under the
  * terms of the GNU Lesser General Public License as published by the Free Software
  * Foundation, either version 3 of the License, or (at your option) any later version.
  *
  * ndn-cxx library is distributed in the hope that it will be useful, but WITHOUT ANY
  * WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A
  * PARTICULAR PURPOSE.  See the GNU Lesser General Public License for more details.
  *
  * You should have received copies of the GNU General Public License and GNU Lesser
  * General Public License along with ndn-cxx, e.g., in COPYING.md file.  If not, see
  * <http://www.gnu.org/licenses/>.
  *
  * See AUTHORS.md for complete list of ndn-cxx authors and contributors.
  */

 #ifndef NDN_UTIL_SIGNAL_SIGNAL_HPP
 #define NDN_UTIL_SIGNAL_SIGNAL_HPP

 #include "signal-connection.hpp"
 #include <list>

 namespace ndn {
 namespace util {
 namespace signal {

 class DummyExtraArg;

 /** \brief provides a lightweight signal / event system
  *
  *  To declare a signal:
  *    public:
  *      Signal<Owner, T1, T2> signalName;
  *  To connect to a signal:
  *    owner->signalName.connect(f);
  *    Multiple functions can connect to the same signal.
  *  To emit a signal from owner:
  *    this->signalName(arg1, arg2);
  *
  *  \tparam Owner the signal owner class; only this class can emit the signal
  *  \tparam TArgs types of signal arguments
  *  \sa signal-emit.hpp allows owner's derived classes to emit signals
  */
 template<typename Owner, typename ...TArgs>
 class Signal : noncopyable
 {
 public: // API for anyone
   /** \brief represents a function that can connect to the signal
    */
   typedef function<void(const TArgs&...)> Handler;

   Signal();

   /** \brief connects a handler to the signal
    *  \note If invoked from a handler, the new handler won't receive the current emitted signal.
    *  \warning The handler is permitted to disconnect itself, but it must ensure its validity.
    */
   Connection
   connect(const Handler& handler);

   /** \brief connects a single-shot handler to the signal
    *
    *  After the handler is executed once, it is automatically disconnected.
    */
   Connection
   connectSingleShot(const Handler& handler);

 private: // API for owner
   /** \retval true if there is no connection
    */
   bool
   isEmpty() const;

   /** \brief emits a signal
    *  \param args arguments passed to all handlers
    *  \warning Emitting the signal from a handler is undefined behavior.
    *  \note If a handler throws, the exception will be propagated to the caller
    *        who emits this signal, and some handlers may not be executed.
    */
   void
   operator()(const TArgs&...args);

   /** \brief (implementation detail) emits a signal
    *  \note This overload is used by signal-emit.hpp.
    */
   void
   operator()(const TArgs&...args, const DummyExtraArg&);

   // make Owner a friend of Signal<Owner, ...> so that API for owner can be called
 #if NDN_CXX_HAVE_CXX_FRIEND_TYPENAME
   friend Owner;
 #elif NDN_CXX_HAVE_CXX_FRIEND_TYPENAME_WRAPPER
   template<typename T>
   struct TypeWrapper
   {
     typedef T Type;
   }; // http://stackoverflow.com/a/5608542/3729203
   friend class TypeWrapper<Owner>::Type;
 #else
 #  error "cannot declare Owner as friend"
 #endif

 private: // internal implementation
   typedef Signal<Owner, TArgs...> Self;
   struct Slot;

   /** \brief stores slots
    *  \note std::list is used because iterators must not be invalidated
    *        when other slots are added or removed
    */
   typedef std::list<Slot> SlotList;

   /** \brief stores a handler function, and a function to disconnect this handler
    */
   struct Slot
   {
     /** \brief the handler function who will receive emitted signals
      */
     Handler handler;

     /** \brief the disconnect function which will disconnect this handler
      *
      *  This is .disconnect method bound with the iterator to this slot.
      *
      *  This is the only shared_ptr to this function object.
      *  Connection class has a weak_ptr which references the same function object.
      *  When the slot is removed or the signal is destructed, this function object would be
      *  destructed, and the related Connections cannot disconnect this slot again.
      */
     shared_ptr<function<void()>> disconnect;
   };

   /** \brief stores slots
    */
   SlotList m_slots;

   /** \brief is a signal handler executing?
    */
   bool m_isExecuting;

   /** \brief iterator to current executing slot
    *  \note This field is meaningful when isExecuting==true
    */
   typename SlotList::iterator m_currentSlot;

   /** \brief disconnects the handler in a slot
    */
   void
   disconnect(typename SlotList::iterator it);
 };

 template<typename Owner, typename ...TArgs>
 Signal<Owner, TArgs...>::Signal()
   : m_isExecuting(false)
 {
 }

 template<typename Owner, typename ...TArgs>
 inline Connection
 Signal<Owner, TArgs...>::connect(const Handler& handler)
 {
   typename SlotList::iterator it = m_slots.insert(m_slots.end(), {handler, nullptr});
   it->disconnect = make_shared<function<void()>>(bind(&Self::disconnect, this, it));

   return signal::Connection(weak_ptr<function<void()>>(it->disconnect));
 }

 template<typename Owner, typename ...TArgs>
 inline Connection
 Signal<Owner, TArgs...>::connectSingleShot(const Handler& handler)
 {
   typename SlotList::iterator it = m_slots.insert(m_slots.end(), {nullptr, nullptr});
   it->disconnect = make_shared<function<void()>>(bind(&Self::disconnect, this, it));
   signal::Connection conn(weak_ptr<function<void()>>(it->disconnect));

   it->handler = [conn, handler] (const TArgs&... args) mutable {
     handler(args...);
     conn.disconnect();
   };

   return conn;
 }

 template<typename Owner, typename ...TArgs>
 inline void
 Signal<Owner, TArgs...>::disconnect(typename SlotList::iterator it)
 {
   // it could be const_iterator, but gcc 4.6 doesn't support std::list::erase(const_iterator)

   if (m_isExecuting) {
     // during signal emission, only the currently executing handler can be disconnected
     BOOST_ASSERT_MSG(it == m_currentSlot,
                      "cannot disconnect another handler from a handler");
     m_currentSlot = m_slots.end(); // prevent disconnect twice
   }
   m_slots.erase(it);
 }

 template<typename Owner, typename ...TArgs>
 inline bool
 Signal<Owner, TArgs...>::isEmpty() const
 {
   return !m_isExecuting && m_slots.empty();
 }

 template<typename Owner, typename ...TArgs>
 inline void
 Signal<Owner, TArgs...>::operator()(const TArgs&... args)
 {
   BOOST_ASSERT_MSG(!m_isExecuting, "cannot emit signal from a handler");
   if (m_slots.empty()) {
     return;
   }
   m_isExecuting = true;

   typename SlotList::iterator it = m_slots.begin();
   typename SlotList::iterator last = m_slots.end();
   --last;

   try {
     bool isLast = false;
     while (!isLast) {
       m_currentSlot = it;
       isLast = it == last;
       ++it;

       m_currentSlot->handler(args...);
     }
   }
   catch (...) {
     m_isExecuting = false;
     throw;
   }
   m_isExecuting = false;
 }

 template<typename Owner, typename ...TArgs>
 inline void
 Signal<Owner, TArgs...>::operator()(const TArgs&... args, const DummyExtraArg&)
 {
   this->operator()(args...);
 }

 } // namespace signal

 // expose as ndn::util::Signal
 using signal::Signal;

 } // namespace util
 } // namespace ndn

 #endif // NDN_UTIL_SIGNAL_SIGNAL_HPP
	/* -- Mode:C++; c-file-style:"gnu"; indent-tabs-mode:nil; -- */
	/**
	* Copyright (c) 2013-2015 Regents of the University of California.
	*
	* This file is part of ndn-cxx library (NDN C++ library with eXperimental eXtensions).
	*
	* ndn-cxx library is free software: you can redistribute it and/or modify it under the
	* terms of the GNU Lesser General Public License as published by the Free Software
	* Foundation, either version 3 of the License, or (at your option) any later version.
	*
	* ndn-cxx library is distributed in the hope that it will be useful, but WITHOUT ANY
	* WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A
	* PARTICULAR PURPOSE. See the GNU Lesser General Public License for more details.
	*
	* You should have received copies of the GNU General Public License and GNU Lesser
	* General Public License along with ndn-cxx, e.g., in COPYING.md file. If not, see
	* <http://www.gnu.org/licenses/>.
	*
	* See AUTHORS.md for complete list of ndn-cxx authors and contributors.
	*/

	#ifndef NDN_UTIL_SIGNAL_SIGNAL_HPP
	#define NDN_UTIL_SIGNAL_SIGNAL_HPP

	#include "signal-connection.hpp"
	#include <list>

	namespace ndn {
	namespace util {
	namespace signal {

	class DummyExtraArg;

	/** \brief provides a lightweight signal / event system
	*
	* To declare a signal:
	* public:
	* Signal<Owner, T1, T2> signalName;
	* To connect to a signal:
	* owner->signalName.connect(f);
	* Multiple functions can connect to the same signal.
	* To emit a signal from owner:
	* this->signalName(arg1, arg2);
	*
	* \tparam Owner the signal owner class; only this class can emit the signal
	* \tparam TArgs types of signal arguments
	* \sa signal-emit.hpp allows owner's derived classes to emit signals
	*/
	template<typename Owner, typename ...TArgs>
	class Signal : noncopyable
	{
	public: // API for anyone
	/** \brief represents a function that can connect to the signal
	*/
	typedef function<void(const TArgs&...)> Handler;

	Signal();

	/** \brief connects a handler to the signal
	* \note If invoked from a handler, the new handler won't receive the current emitted signal.
	* \warning The handler is permitted to disconnect itself, but it must ensure its validity.
	*/
	Connection
	connect(const Handler& handler);

	/** \brief connects a single-shot handler to the signal
	*
	* After the handler is executed once, it is automatically disconnected.
	*/
	Connection
	connectSingleShot(const Handler& handler);

	private: // API for owner
	/** \retval true if there is no connection
	*/
	bool
	isEmpty() const;

	/** \brief emits a signal
	* \param args arguments passed to all handlers
	* \warning Emitting the signal from a handler is undefined behavior.
	* \note If a handler throws, the exception will be propagated to the caller
	* who emits this signal, and some handlers may not be executed.
	*/
	void
	operator()(const TArgs&...args);

	/** \brief (implementation detail) emits a signal
	* \note This overload is used by signal-emit.hpp.
	*/
	void
	operator()(const TArgs&...args, const DummyExtraArg&);

	// make Owner a friend of Signal<Owner, ...> so that API for owner can be called
	#if NDN_CXX_HAVE_CXX_FRIEND_TYPENAME
	friend Owner;
	#elif NDN_CXX_HAVE_CXX_FRIEND_TYPENAME_WRAPPER
	template<typename T>
	struct TypeWrapper
	{
	typedef T Type;
	}; // http://stackoverflow.com/a/5608542/3729203
	friend class TypeWrapper<Owner>::Type;
	#else
	# error "cannot declare Owner as friend"
	#endif

	private: // internal implementation
	typedef Signal<Owner, TArgs...> Self;
	struct Slot;

	/** \brief stores slots
	* \note std::list is used because iterators must not be invalidated
	* when other slots are added or removed
	*/
	typedef std::list<Slot> SlotList;

	/** \brief stores a handler function, and a function to disconnect this handler
	*/
	struct Slot
	{
	/** \brief the handler function who will receive emitted signals
	*/
	Handler handler;

	/** \brief the disconnect function which will disconnect this handler
	*
	* This is .disconnect method bound with the iterator to this slot.
	*
	* This is the only shared_ptr to this function object.
	* Connection class has a weak_ptr which references the same function object.
	* When the slot is removed or the signal is destructed, this function object would be
	* destructed, and the related Connections cannot disconnect this slot again.
	*/
	shared_ptr<function<void()>> disconnect;
	};

	/** \brief stores slots
	*/
	SlotList m_slots;

	/** \brief is a signal handler executing?
	*/
	bool m_isExecuting;

	/** \brief iterator to current executing slot
	* \note This field is meaningful when isExecuting==true
	*/
	typename SlotList::iterator m_currentSlot;

	/** \brief disconnects the handler in a slot
	*/
	void
	disconnect(typename SlotList::iterator it);
	};

	template<typename Owner, typename ...TArgs>
	Signal<Owner, TArgs...>::Signal()
	: m_isExecuting(false)
	{
	}

	template<typename Owner, typename ...TArgs>
	inline Connection
	Signal<Owner, TArgs...>::connect(const Handler& handler)
	{
	typename SlotList::iterator it = m_slots.insert(m_slots.end(), {handler, nullptr});
	it->disconnect = make_shared<function<void()>>(bind(&Self::disconnect, this, it));

	return signal::Connection(weak_ptr<function<void()>>(it->disconnect));
	}

	template<typename Owner, typename ...TArgs>
	inline Connection
	Signal<Owner, TArgs...>::connectSingleShot(const Handler& handler)
	{
	typename SlotList::iterator it = m_slots.insert(m_slots.end(), {nullptr, nullptr});
	it->disconnect = make_shared<function<void()>>(bind(&Self::disconnect, this, it));
	signal::Connection conn(weak_ptr<function<void()>>(it->disconnect));

	it->handler = [conn, handler] (const TArgs&... args) mutable {
	handler(args...);
	conn.disconnect();
	};

	return conn;
	}

	template<typename Owner, typename ...TArgs>
	inline void
	Signal<Owner, TArgs...>::disconnect(typename SlotList::iterator it)
	{
	// it could be const_iterator, but gcc 4.6 doesn't support std::list::erase(const_iterator)

	if (m_isExecuting) {
	// during signal emission, only the currently executing handler can be disconnected
	BOOST_ASSERT_MSG(it == m_currentSlot,
	"cannot disconnect another handler from a handler");
	m_currentSlot = m_slots.end(); // prevent disconnect twice
	}
	m_slots.erase(it);
	}

	template<typename Owner, typename ...TArgs>
	inline bool
	Signal<Owner, TArgs...>::isEmpty() const
	{
	return !m_isExecuting && m_slots.empty();
	}

	template<typename Owner, typename ...TArgs>
	inline void
	Signal<Owner, TArgs...>::operator()(const TArgs&... args)
	{
	BOOST_ASSERT_MSG(!m_isExecuting, "cannot emit signal from a handler");
	if (m_slots.empty()) {
	return;
	}
	m_isExecuting = true;

	typename SlotList::iterator it = m_slots.begin();
	typename SlotList::iterator last = m_slots.end();
	--last;

	try {
	bool isLast = false;
	while (!isLast) {
	m_currentSlot = it;
	isLast = it == last;
	++it;

	m_currentSlot->handler(args...);
	}
	}
	catch (...) {
	m_isExecuting = false;
	throw;
	}
	m_isExecuting = false;
	}

	template<typename Owner, typename ...TArgs>
	inline void
	Signal<Owner, TArgs...>::operator()(const TArgs&... args, const DummyExtraArg&)
	{
	this->operator()(args...);
	}

	} // namespace signal

	// expose as ndn::util::Signal
	using signal::Signal;

	} // namespace util
	} // namespace ndn

	#endif // NDN_UTIL_SIGNAL_SIGNAL_HPP