Esempio n. 1
0
 Gui_DisplayFrame(Gui_ProcessorHandler& processor_hand,sigc::signal<void,bool,double> signal_show_decor,sigc::signal<void,bool> signal_show_mask):
 m_display(processor_hand){
     DEV_INFOS("building graphical display frame");
     this->add(m_display);
     signal_show_decor.connect( sigc::mem_fun(this,&Gui_DisplayFrame::on_show_deco));
     signal_show_mask.connect( sigc::mem_fun(this,&Gui_DisplayFrame::on_show_mask));
 }
Esempio n. 2
0
void Interactive::loop()
{
    if (rl_bind_keyseq("`", &context_switch) != 0) {
        std::cout << "BINDING FAILED" << std::endl;
    }
    rl_callback_handler_install(m_prompt.c_str(),
                                &Interactive::gotCommand);
    rl_completion_entry_function = &completion_generator;
    CmdLine.connect(sigc::mem_fun(this, &Interactive::runCommand));
    ContextSwitch.connect(sigc::mem_fun(this, &Interactive::switchContext));
    while (select() == 0);
    std::cout << std::endl << std::flush;
    rl_callback_handler_remove();
}
Esempio n. 3
0
void Admintest::test_customMonitorOperation_monitorin()
{
    // Check that Dispatching in not yet connected
    assert(m_server->m_world.Dispatching.slots().begin() ==
                 m_server->m_world.Dispatching.slots().end());

    // Set it up so it is already monitoring
    m_account->m_monitorConnection =
          null_signal.connect(sigc::mem_fun(this, &Admintest::null_method));
    ASSERT_TRUE(m_account->m_monitorConnection.connected());

    Atlas::Objects::Operation::Monitor op;
    OpVector res;

    Root arg;
    op->setArgs1(arg);

    m_account->customMonitorOperation(op, res);

    ASSERT_TRUE(m_account->m_monitorConnection.connected());

    // Check that Dispatching in not been connected
    assert(m_server->m_world.Dispatching.slots().begin() ==
                 m_server->m_world.Dispatching.slots().end());

}
Esempio n. 4
0
      void on_limits_changed()
      {
	magnet::gtk::forceNumericEntry(_minValue);
	try { _min = boost::lexical_cast<GLfloat>(_minValue.get_text()); } catch(...) {}
	magnet::gtk::forceNumericEntry(_maxValue);
	try { _max = boost::lexical_cast<GLfloat>(_maxValue.get_text()); } catch(...) {}
	_signal_changed.emit();
      }
Esempio n. 5
0
ObjectManager::ObjectManager( Mode mode, RakNet::RakNetGUID ownGUID, RakNet::RakNetGUID serverGUID,
    sigc::signal<void>& rUpdateSignal, sigc::signal<void>& rLateUpdateSignal, 
    ObjectTemplateManager& rObjectTemplateManager, RakNet::ReplicaManager3& rReplicaManager, 
    RakNet::NetworkIDManager& rNetworkIDManager, RakNet::RPC3& rRPC3, bool offlineMode /*= false*/ ): 
    mMode( mode ),
    mOfflineMode( offlineMode ),
    mOwnGUID( ownGUID ),
    mServerGUID( serverGUID ),
    mUpdateSignal( rUpdateSignal ),
    mObjectTemplateManager( rObjectTemplateManager ),
    mReplicaManager( rReplicaManager ),
    mNetworkIDManager( rNetworkIDManager ),
    mRPC3( rRPC3 )
{
    mUpdateConnection = rUpdateSignal.connect( sigc::mem_fun( this, &ObjectManager::update ) );
    mUpdateConnection.block( true );
    rLateUpdateSignal.connect( sigc::mem_fun( this, &ObjectManager::lateUpdate ) );
}
Esempio n. 6
0
/**
 * Respond to the text box changing.
 *
 * This function responds to the box changing by grabbing the value
 * from the text box and putting it in the parameter.
 */
void
ParamComboBoxEntry::changed (void)
{
    Glib::ustring data = this->get_active_text();
    _pref->set(data.c_str(), _doc, _node);
    if (_changeSignal != NULL) {
        _changeSignal->emit();
    }
}
Esempio n. 7
0
/** \brief  A function to respond to the value_changed signal from the
            adjustment.

    This function just grabs the value from the adjustment and writes
    it to the parameter.  Very simple, but yet beautiful.
*/
void
ParamFloatAdjustment::val_changed (void)
{
    //std::cout << "Value Changed to: " << this->get_value() << std::endl;
    _pref->set(this->get_value(), _doc, _node);
    if (_changeSignal != NULL) {
        _changeSignal->emit();
    }
    return;
}
Esempio n. 8
0
/** \brief  Respond to the selected radiobutton changing

    This function responds to the radiobutton selection changing by grabbing the value
    from the text box and putting it in the parameter.
*/
void
ParamRadioButtonWdg::changed (void)
{
    if (this->get_active()) {
        Glib::ustring data = this->get_label();
        _pref->set(data.c_str(), _doc, _node);
    }
    if (_changeSignal != NULL) {
        _changeSignal->emit();
    }
}
Esempio n. 9
0
ClientConnection::ClientConnection( sigc::signal<void>& rUpdateSignal ):
    mRakPeer( *RakNet::RakPeerInterface::GetInstance() )
{
    LOGI << "Initializing client connection";

    rUpdateSignal.connect( sigc::mem_fun( this, &ClientConnection::update ) );

    mRPC3.SetNetworkIDManager( &mNetworkIDManager );
    mReplicaManager.SetNetworkIDManager( &mNetworkIDManager );
    mRakPeer.AttachPlugin( &mRPC3 );
    mRakPeer.AttachPlugin( &mReplicaManager );

    // Initialize plugin manager
    mPluginManager = new ClientPluginManager( SERVER, rUpdateSignal, mRakPeer, 
        mReplicaManager, mNetworkIDManager, mRPC3 );
    mReplicaManager.setPluginManager( *mPluginManager );

    // Initialize user manager
    mSessionManager.reset( new SessionManager( mUserManager, *mPluginManager, 
        rUpdateSignal ) );

    // Initialize permission manager
    PermissionManager& permissionManager = mPluginManager->createPlugin<PermissionManager>();
    permissionManager.setSessionManager( *mSessionManager.get() );

    // Connect to plugin change signal to set the object manager when it's created.
    mPluginChangeConnection = mPluginManager->connect( sigc::mem_fun( this, 
        &ClientConnection::pluginChange ) );

    // Load all other plugins and set configuration for them. Copy vector to set to remove
    // duplicates and fix the load order.
    std::set<ClientServerPluginTypeEnum> plugins;
    std::copy( msSettings.mPlugins.begin(), msSettings.mPlugins.end(), std::inserter( plugins, 
        plugins.end() ) );
    for( std::set<ClientServerPluginTypeEnum>::iterator i = plugins.begin(); i!= plugins.end(); 
        ++i )
    {
        ClientServerPlugin& plugin = mPluginManager->createPlugin( *i );
        LOGI << "Loading client-server plugin: " << plugin.getTypeName();
        Globals::mConfig->registerObject( plugin );
    }
    
    // Load user settings after loading all plugins (PermissionManager), so default permissions get 
    // overridden.
    Globals::mConfig->registerObject( mUserManager );

    Globals::mClient = this;

    Globals::mLua->object( "ClientConnection" ) = this;
}
Esempio n. 10
0
Gui_ResultFrame::Gui_ResultFrame(Gui_ProcessorHandler& processor_hand, sigc::signal<void,bool>& signal_set_to_NA, ResultMap& result_map):
    m_result_map(result_map),
    m_processor_hand(processor_hand),
    m_result_display(m_signal_update_result_map, m_result_map),
    m_result_detail(m_signal_update_result_map,m_signal_select_object,m_signal_toggle_object, m_result_map),
    m_user_filter(m_processor_hand)
{
    DEV_INFOS("RESUlt frame");
    this->pack1(m_result_display);
    this->pack2(m_result_detail);
    processor_hand.signal_state().connect( sigc::mem_fun(*this,&Gui_ResultFrame::on_processor_idle));
    signal_set_to_NA.connect( sigc::mem_fun(*this,&Gui_ResultFrame::on_set_current_to_NA));
    m_signal_toggle_object.connect( sigc::mem_fun(m_user_filter,&Gui_UserFilterSetter::on_toggle_object));
//    signal_set_to_NA.connect( sigc::mem_fun(m_result_display,&Gui_ResultListDisplay::on_setToNA));
    DEV_INFOS("RESUlt frame OK");
}
Esempio n. 11
0
void ControlManagerImpl::setControlSize(int size, bool force)
{
    if ((size < 1) || (size > 7)) {
        g_warning("Illegal logical size set: %d", size);
    } else if (force || (size != _size)) {
        _size = size;

        for (std::vector<SPCanvasItem *>::iterator it = _itemList.begin(); it != _itemList.end(); ++it)
        {
            if (*it) {
                updateItem(*it);
            }
        }

        _sizeChangedSignal.emit();
    }
}
Esempio n. 12
0
	void OnAxisPick(SDL_JoyAxisEvent *e) {
		if (e->value > -32767/3 && e->value < 32767/3)
			return;

		m_keyUpConnection.disconnect();
		Gui::Screen::RemoveBaseWidget(m_infoTooltip);
		delete m_infoTooltip;
		m_infoTooltip = 0;

		m_axisBinding.joystick = e->which;
		m_axisBinding.axis = e->axis;
		m_axisBinding.direction = (e->value < 0 ? KeyBindings::NEGATIVE : KeyBindings::POSITIVE);

		onChange.emit(m_axisBinding);
		m_keyLabel->SetText(m_axisBinding.Description());
		ResizeRequest();
	}
Esempio n. 13
0
void Admintest::test_opDispatched()
{
    Link_sent_called = false;

    m_account->m_monitorConnection =
          null_signal.connect(sigc::mem_fun(this, &Admintest::null_method));
    ASSERT_TRUE(m_account->m_monitorConnection.connected());

    Operation op;

    m_account->opDispatched(op);

    // The account is connected, so calling this should not affect the signal
    ASSERT_TRUE(m_account->m_monitorConnection.connected());

    // The operation should have been sent here
    ASSERT_TRUE(Link_sent_called);
}
Esempio n. 14
0
namespace Eris
{

static LogLevel _logLevel = DEFAULT_LOG;    
sigc::signal<void, LogLevel, const std::string&> Logged;
    
void setLogLevel(LogLevel lvl)
{
    _logLevel = lvl;
}    
    
LogLevel getLogLevel()
{
    return _logLevel;
}

void doLog(LogLevel lvl, const std::string& msg)
{
    if (lvl <= _logLevel)
        Logged.emit(lvl, msg);
}

std::ostream& operator<<(std::ostream& os, const Atlas::Objects::Root& obj)
{
    std::stringstream s;
    Atlas::Codecs::Bach debugCodec(s, s, *(Atlas::Bridge*)0);
    Atlas::Objects::ObjectsEncoder debugEncoder(debugCodec);
    debugEncoder.streamObjectsMessage(obj);
    return os << s.str();
}

std::ostream& operator<<(std::ostream& os, const Atlas::Message::Element& msg)
{
    std::stringstream s;
    Atlas::Codecs::Bach debugCodec(s, s, *(Atlas::Bridge*)0);
    Atlas::Message::Encoder debugEncoder(debugCodec);
    debugEncoder.streamMessageElement(msg.asMap());
    return os << s.str();
}

} // of namespace
Esempio n. 15
0
void Admintest::test_opDispatched_unconnected_monitored()
{
    m_account->m_connection = 0;

    Link_sent_called = false;

    m_account->m_monitorConnection =
          null_signal.connect(sigc::mem_fun(this, &Admintest::null_method));
    ASSERT_TRUE(m_account->m_monitorConnection.connected());

    Operation op;

    m_account->opDispatched(op);

    // The account is unconnected, so calling opDispatched should not
    // cause the signal to get cut off
    ASSERT_TRUE(!m_account->m_monitorConnection.connected());

    // The operation should not have been sent here
    ASSERT_TRUE(!Link_sent_called);
}
Esempio n. 16
0
	void OnClickCancel() {
		onClickCancel.emit();
	}
Esempio n. 17
0
	AfterTerrainUpdateListener(sigc::signal<void, const std::vector<WFMath::AxisBox<2>>&, const std::set<TerrainPage*>&>& event)
	{
		event.connect(sigc::mem_fun(*this, &AfterTerrainUpdateListener::eventListener));
	}
Esempio n. 18
0
	WorldSizeChangedListener(sigc::signal<void>& event)
	{
		event.connect(sigc::mem_fun(*this, &WorldSizeChangedListener::eventListener));
	}
Esempio n. 19
0
static int context_switch(int a, int b)
{
    ContextSwitch.emit(a, b);
    return 0;
}
Esempio n. 20
0
 template<class... Args> XBT_ALWAYS_INLINE
 R operator()(Args&&... args) const
 {
   return sig_.emit(std::forward<Args>(args)...);
 }
Esempio n. 21
0
 void disconnect_all_slots()
 {
   sig_.clear();
 }
Esempio n. 22
0
      void on_combobox_changed()
      {
	::Gtk::TreeModel::iterator iter = _comboBox.get_active();
	if (iter) _mode = ((*iter)[m_Columns.m_col_id]);
	_signal_changed.emit();
      }
Esempio n. 23
0
sigc::connection ControlManagerImpl::connectCtrlSizeChanged(const sigc::slot<void> &slot)
{
    return _sizeChangedSignal.connect(slot);
}
Esempio n. 24
0
void
Transmitter::run(void)
{
    sleep(2);
    m_slot.emit(m_origin); // Emit the signal
}
Esempio n. 25
0
void doLog(LogLevel lvl, const std::string& msg)
{
    if (lvl <= _logLevel)
        Logged.emit(lvl, msg);
}
Esempio n. 26
0
	void Close() {
		onChange.emit(m_binding);
		m_keyLabel->SetText(m_binding.Description());
		ResizeRequest();
	}
Esempio n. 27
0
 template<class U> XBT_ALWAYS_INLINE
 void connect(U&& slot)
 {
   sig_.connect(std::forward<U>(slot));
 }
Esempio n. 28
0
void Interactive::gotCommand(char * cmd)
{
    CmdLine.emit(cmd);
}
Esempio n. 29
0
EntityMoveInstance::EntityMoveInstance(EmberEntity& entity, MovementAdapter& moveAdapter, sigc::signal<void>& eventFinishedMoving, sigc::signal<void>& eventCancelledMoving) :
	EntityObserverBase(entity, true), mMoveAdapter(moveAdapter)
{
	eventCancelledMoving.connect(sigc::mem_fun(*this, &EntityObserverBase::deleteOurselves));
	eventFinishedMoving.connect(sigc::mem_fun(*this, &EntityObserverBase::deleteOurselves));
}
Esempio n. 30
0
 template<class Res, class... Args> XBT_ALWAYS_INLINE
 void connect(Res(*slot)(Args...))
 {
   sig_.connect(sigc::ptr_fun(slot));
 }