Пример #1
0
ACS::ROpattern_ptr BaciPropTest::testPatternVar () 
{
    if (m_testPatternVar_sp == 0)
	{
	return ACS::ROpattern::_nil();
	}

    ACS::ROpattern_var prop = ACS::ROpattern::_narrow(m_testPatternVar_sp->getCORBAReference());
    return prop._retn();
}
Пример #2
0
ACS::ROpattern_ptr MCtestComponentImpl::patternProp ()
{
	if (m_patternProp_p == 0)
	{
		return ACS::ROpattern::_nil();
	}

	ACS::ROpattern_var prop = ACS::ROpattern::_narrow(m_patternProp_p ->getCORBAReference());
	return prop._retn();
}
Пример #3
0
ACS::ROpattern_ptr
PowerSupply::status ()
{
    if (m_status_sp == 0)
	{
	return ACS::ROpattern::_nil();
	}
    
    ACS::ROpattern_var prop = ACS::ROpattern::_narrow(m_status_sp->getCORBAReference());
    return prop._retn();
}
Пример #4
0
int main (int argc, char **argv)
#endif
{
    
    try
	{
	// create logging proxy
	LoggingProxy *m_logger = new LoggingProxy(0, 0, 31, 0);
	LoggingProxy::init(m_logger);
	LoggingProxy::ProcessName(argv[0]);
	LoggingProxy::ThreadName("main");
	ACS_TEST_INIT_LOGGING;
    
	// 
	// Initialysation of CORBA, POA and related CORBA internals  
	// 
	ACE_CString g_strCmdLn;
	for (int i=argc-1; i>=0; i--)
	    g_strCmdLn = ACE_CString(argv[i])+ " " + g_strCmdLn;

	if (g_strCmdLn.find("-ORBDottedDecimalAddresses")==ACE_CString::npos)
	    g_strCmdLn += " -ORBDottedDecimalAddresses 1";

	ACE_TCHAR **m_argv = argv;
	int m_argc = argc;
	ACE_OS::string_to_argv((ACE_TCHAR*)g_strCmdLn.c_str(),
			       m_argc,
			       m_argv);

	BACI_CORBA::InitCORBA(m_argc, m_argv);
	

	std::string readIOR;

	int result = read_IOR_from_file ("BACIALARM", readIOR);
	if (result != 0)
	    {
	    ACS_SHORT_LOG((LM_ERROR, "Cannot read IOR from file"));
	    return -1;
	    }

	// Get an object reference from the argument string.
	CORBA::Object_var object = 
	    BACI_CORBA::getORB()->string_to_object (readIOR.c_str());
	

	if (CORBA::is_nil(object.in())) 
	    {
	    ACS_SHORT_LOG ((LM_DEBUG, "Cannot create OBJ from IOR"));
	    return -1;
	    }

	// Try to narrow the object reference to a BaciTestAlarmClass reference.
	BACI_TEST::BaciTestAlarmClass_var comp = BACI_TEST::BaciTestAlarmClass::_narrow(object.in());
	

	CORBA::String_var ior =
	    BACI_CORBA::getORB()->object_to_string (comp.in());
	
      
        ACS_SHORT_LOG((LM_INFO,"baciTestAlarmClient: Connecting to: %s", ior.in()));

	/********************* pattern alarm subscription ******************/


	ACS::ROpattern_var roPattern = comp->roPatternProperty();
	ACS::RWpattern_var rwPattern = comp->rwPatternProperty();

	//create an instance of our alarm class
	MyAlarmpattern macb("roPatternProperty");
	//activate it as a CORBA object
	ACS::Alarmpattern_var acb = macb._this(); 
	//create the actual BACI double alarm
	ACS::CBDescIn desc;
	ACS::Subscription_var alarmSub = roPattern->new_subscription_Alarm(acb.in(), desc);
	ACS_SHORT_LOG((LM_INFO,"Alarmpattern subscription created"));
	

	// create the thread 
	WorkerThreadPattern threadPattern_p ("actionThreadPattern", comp, ThreadBase::defaultResponseTime, ThreadBase::defaultSleepTime*10 /*=1s*/);
	// by default threads that are not created using a thread manager are creatd suspended so we have to resume them!!
	threadPattern_p.resume();
	
	//---------------------------------------------------------------

	//Enter main loop and stays there for a fixed amount of time.  Really we are
	//just allowing the thread we just created to run for awhile before exiting out
	//of this example.
	ACS_SHORT_LOG((LM_INFO,"baciTestAlarmClient: main thread, entering ORB loop to sleep..."));

	ACE_Time_Value tv(25);

	BACI_CORBA::getORB()->run(tv); 


	//Must cleanly destroy the alarm
	ACS_SHORT_LOG((LM_INFO,"Alarm subscriptions deleted")); 
	alarmSub->destroy();	


	ACS_SHORT_LOG((LM_INFO,"baciTestAlarmClient: main thread, shutting down..."));


	comp->shutdown();
	
	sleep(10);

	BACI_CORBA::DoneCORBA();
	
	// Delete the logger last.
	delete m_logger;

	}
    catch(CORBA::Exception &ex)
	{
        ACE_PRINT_EXCEPTION (ACE_ANY_EXCEPTION,"Error!");
        return -1;
	}
    ACE_CHECK_RETURN (-1);

    // Wait for the servant to complete cleanup before exiting.
    sleep(2);
    return 0;

} /* end main() */