boost_1_45_0/libs/signals/src/signal_base.cpp - nest-learning-thermostat/5.0/boost - Git at Google

 // Boost.Signals library

 // Copyright Douglas Gregor 2001-2004. Use, modification and
 // distribution is subject to the Boost Software License, Version
 // 1.0. (See accompanying file LICENSE_1_0.txt or copy at
 // http://www.boost.org/LICENSE_1_0.txt)

 // For more information, see http://www.boost.org

 #define BOOST_SIGNALS_SOURCE

 #include <boost/signals/detail/signal_base.hpp>
 #include <cassert>

 namespace boost {
   namespace BOOST_SIGNALS_NAMESPACE {
     namespace detail {
       signal_base_impl::signal_base_impl(const compare_type& comp,
                                          const any& combiner)
         : call_depth(0),
           slots_(comp),
           combiner_(combiner)
       {
         flags.delayed_disconnect = false;
         flags.clearing = false;
       }

       signal_base_impl::~signal_base_impl()
       {
         // Set the "clearing" flag to ignore extraneous disconnect requests,
         // because all slots will be disconnected on destruction anyway.
         flags.clearing = true;
       }

       void signal_base_impl::disconnect_all_slots()
       {
         // Do nothing if we're already clearing the slot list
         if (flags.clearing)
           return;

         if (call_depth == 0) {
           // Clearing the slot list will disconnect all slots automatically
           temporarily_set_clearing set_clearing(this);
           slots_.clear();
         }
         else {
           // We can't actually remove elements from the slot list because there
           // are still iterators into the slot list that must not be
           // invalidated by this operation. So just disconnect each slot
           // without removing it from the slot list. When the call depth does
           // reach zero, the call list will be cleared.
           flags.delayed_disconnect = true;
           temporarily_set_clearing set_clearing(this);
           for (iterator i = slots_.begin(); i != slots_.end(); ++i) {
             i->first.disconnect();
           }
         }
       }

       connection
       signal_base_impl::
         connect_slot(const any& slot_,
                      const stored_group& name,
                      shared_ptr<slot_base::data_t> data,
                      connect_position at)
       {
         // Transfer the burden of ownership to a local, scoped
         // connection.
         data->watch_bound_objects.set_controlling(false);
         scoped_connection safe_connection(data->watch_bound_objects);

         // Allocate storage for an iterator that will hold the point of
         // insertion of the slot into the list. This is used to later remove
         // the slot when it is disconnected.
         std::auto_ptr<iterator> saved_iter(new iterator);

         // Add the slot to the list.
         iterator pos =
           slots_.insert(name, data->watch_bound_objects, slot_, at);

         // The assignment operation here absolutely must not throw, which
         // intuitively makes sense (because any container's insert method
         // becomes impossible to use in an exception-safe manner without this
         // assumption), but doesn't appear to be mentioned in the standard.
         *saved_iter = pos;

         // Fill out the connection object appropriately. None of these
         // operations can throw
         data->watch_bound_objects.get_connection()->signal = this;
         data->watch_bound_objects.get_connection()->signal_data =
           saved_iter.release();
         data->watch_bound_objects.get_connection()->signal_disconnect =
           &signal_base_impl::slot_disconnected;

         // Make the copy of the connection in the list disconnect when it is
         // destroyed. The local, scoped connection is then released
         // because ownership has been transferred.
         pos->first.set_controlling();
         return safe_connection.release();
       }

       bool signal_base_impl::empty() const
       {
         // Disconnected slots may still be in the list of slots if
         //   a) this is called while slots are being invoked (call_depth > 0)
         //   b) an exception was thrown in remove_disconnected_slots
         for (iterator i = slots_.begin(); i != slots_.end(); ++i) {
           if (i->first.connected())
             return false;
         }

         return true;
       }

       std::size_t signal_base_impl::num_slots() const
       {
         // Disconnected slots may still be in the list of slots if
         //   a) this is called while slots are being invoked (call_depth > 0)
         //   b) an exception was thrown in remove_disconnected_slots
         std::size_t count = 0;
         for (iterator i = slots_.begin(); i != slots_.end(); ++i) {
           if (i->first.connected())
             ++count;
         }
         return count;
       }

       void signal_base_impl::disconnect(const stored_group& group)
       { slots_.disconnect(group); }

       void signal_base_impl::slot_disconnected(void* obj, void* data)
       {
         signal_base_impl* self = reinterpret_cast<signal_base_impl*>(obj);

         // We won't need the slot iterator after this
         std::auto_ptr<iterator> slot(reinterpret_cast<iterator*>(data));

         // If we're flags.clearing, we don't bother updating the list of slots
         if (!self->flags.clearing) {
           // If we're in a call, note the fact that a slot has been deleted so
           // we can come back later to remove the iterator
           if (self->call_depth > 0) {
             self->flags.delayed_disconnect = true;
           }
           else {
             // Just remove the slot now, it's safe
             self->slots_.erase(*slot);
           }
         }
       }

       void signal_base_impl::remove_disconnected_slots() const
       { slots_.remove_disconnected_slots(); }

       call_notification::
         call_notification(const shared_ptr<signal_base_impl>& b) :
           impl(b)
       {
         // A call will be made, so increment the call depth as a notification
         impl->call_depth++;
       }

       call_notification::~call_notification()
       {
         impl->call_depth--;

         // If the call depth is zero and we have some slots that have been
         // disconnected during the calls, remove those slots from the list
         if (impl->call_depth == 0 &&
             impl->flags.delayed_disconnect) {
           impl->remove_disconnected_slots();
           impl->flags.delayed_disconnect = false;
         }
       }

     signal_base::signal_base(const compare_type& comp, const any& combiner)
       : impl()
     {
       impl.reset(new signal_base_impl(comp, combiner));
     }

     signal_base::~signal_base()
     {
     }

     } // namespace detail
   } // namespace BOOST_SIGNALS_NAMESPACE
 } // namespace boost
	// Boost.Signals library

	// Copyright Douglas Gregor 2001-2004. Use, modification and
	// distribution is subject to the Boost Software License, Version
	// 1.0. (See accompanying file LICENSE_1_0.txt or copy at
	// http://www.boost.org/LICENSE_1_0.txt)

	// For more information, see http://www.boost.org

	#define BOOST_SIGNALS_SOURCE

	#include <boost/signals/detail/signal_base.hpp>
	#include <cassert>

	namespace boost {
	namespace BOOST_SIGNALS_NAMESPACE {
	namespace detail {
	signal_base_impl::signal_base_impl(const compare_type& comp,
	const any& combiner)
	: call_depth(0),
	slots_(comp),
	combiner_(combiner)
	{
	flags.delayed_disconnect = false;
	flags.clearing = false;
	}

	signal_base_impl::~signal_base_impl()
	{
	// Set the "clearing" flag to ignore extraneous disconnect requests,
	// because all slots will be disconnected on destruction anyway.
	flags.clearing = true;
	}

	void signal_base_impl::disconnect_all_slots()
	{
	// Do nothing if we're already clearing the slot list
	if (flags.clearing)
	return;

	if (call_depth == 0) {
	// Clearing the slot list will disconnect all slots automatically
	temporarily_set_clearing set_clearing(this);
	slots_.clear();
	}
	else {
	// We can't actually remove elements from the slot list because there
	// are still iterators into the slot list that must not be
	// invalidated by this operation. So just disconnect each slot
	// without removing it from the slot list. When the call depth does
	// reach zero, the call list will be cleared.
	flags.delayed_disconnect = true;
	temporarily_set_clearing set_clearing(this);
	for (iterator i = slots_.begin(); i != slots_.end(); ++i) {
	i->first.disconnect();
	}
	}
	}

	connection
	signal_base_impl::
	connect_slot(const any& slot_,
	const stored_group& name,
	shared_ptr<slot_base::data_t> data,
	connect_position at)
	{
	// Transfer the burden of ownership to a local, scoped
	// connection.
	data->watch_bound_objects.set_controlling(false);
	scoped_connection safe_connection(data->watch_bound_objects);

	// Allocate storage for an iterator that will hold the point of
	// insertion of the slot into the list. This is used to later remove
	// the slot when it is disconnected.
	std::auto_ptr<iterator> saved_iter(new iterator);

	// Add the slot to the list.
	iterator pos =
	slots_.insert(name, data->watch_bound_objects, slot_, at);

	// The assignment operation here absolutely must not throw, which
	// intuitively makes sense (because any container's insert method
	// becomes impossible to use in an exception-safe manner without this
	// assumption), but doesn't appear to be mentioned in the standard.
	*saved_iter = pos;

	// Fill out the connection object appropriately. None of these
	// operations can throw
	data->watch_bound_objects.get_connection()->signal = this;
	data->watch_bound_objects.get_connection()->signal_data =
	saved_iter.release();
	data->watch_bound_objects.get_connection()->signal_disconnect =
	&signal_base_impl::slot_disconnected;

	// Make the copy of the connection in the list disconnect when it is
	// destroyed. The local, scoped connection is then released
	// because ownership has been transferred.
	pos->first.set_controlling();
	return safe_connection.release();
	}

	bool signal_base_impl::empty() const
	{
	// Disconnected slots may still be in the list of slots if
	// a) this is called while slots are being invoked (call_depth > 0)
	// b) an exception was thrown in remove_disconnected_slots
	for (iterator i = slots_.begin(); i != slots_.end(); ++i) {
	if (i->first.connected())
	return false;
	}

	return true;
	}

	std::size_t signal_base_impl::num_slots() const
	{
	// Disconnected slots may still be in the list of slots if
	// a) this is called while slots are being invoked (call_depth > 0)
	// b) an exception was thrown in remove_disconnected_slots
	std::size_t count = 0;
	for (iterator i = slots_.begin(); i != slots_.end(); ++i) {
	if (i->first.connected())
	++count;
	}
	return count;
	}

	void signal_base_impl::disconnect(const stored_group& group)
	{ slots_.disconnect(group); }

	void signal_base_impl::slot_disconnected(void* obj, void* data)
	{
	signal_base_impl* self = reinterpret_cast<signal_base_impl*>(obj);

	// We won't need the slot iterator after this
	std::auto_ptr<iterator> slot(reinterpret_cast<iterator*>(data));

	// If we're flags.clearing, we don't bother updating the list of slots
	if (!self->flags.clearing) {
	// If we're in a call, note the fact that a slot has been deleted so
	// we can come back later to remove the iterator
	if (self->call_depth > 0) {
	self->flags.delayed_disconnect = true;
	}
	else {
	// Just remove the slot now, it's safe
	self->slots_.erase(*slot);
	}
	}
	}

	void signal_base_impl::remove_disconnected_slots() const
	{ slots_.remove_disconnected_slots(); }

	call_notification::
	call_notification(const shared_ptr<signal_base_impl>& b) :
	impl(b)
	{
	// A call will be made, so increment the call depth as a notification
	impl->call_depth++;
	}

	call_notification::~call_notification()
	{
	impl->call_depth--;

	// If the call depth is zero and we have some slots that have been
	// disconnected during the calls, remove those slots from the list
	if (impl->call_depth == 0 &&
	impl->flags.delayed_disconnect) {
	impl->remove_disconnected_slots();
	impl->flags.delayed_disconnect = false;
	}
	}

	signal_base::signal_base(const compare_type& comp, const any& combiner)
	: impl()
	{
	impl.reset(new signal_base_impl(comp, combiner));
	}

	signal_base::~signal_base()
	{
	}

	} // namespace detail
	} // namespace BOOST_SIGNALS_NAMESPACE
	} // namespace boost