Esempio n. 1
0
	void runnableTest()
	{
		Worker worker;
		Thread thread(&worker);

		thread.start();
		worker.start();

		CPPUNIT_ASSERT(worker.isQuit() == false);
		worker.quit();
		const unsigned int result = thread.join();
		CPPUNIT_ASSERT(result == 1);


		CPPUNIT_ASSERT(worker.isQuit() == true);
		worker.join();
	}
Esempio n. 2
0
int
ACE_TMAIN(int argc, ACE_TCHAR *argv[])
{
  try
    {
      CORBA::ORB_var orb =
        CORBA::ORB_init (argc, argv);

      if (parse_args (argc, argv) != 0)
        return 1;

      Worker worker (orb.in ());

      if (worker.activate (THR_NEW_LWP | THR_JOINABLE,
                           nthreads) != 0)
        ACE_ERROR_RETURN ((LM_ERROR,
                           "(%P|%t) Cannot activate worker threads\n"),
                          1);

      int timeout = 30;
      int now = 0;
      while (now < timeout
        && ((expect_ex_kind != TAO::FOE_NON
             && worker.received_ex_kind () != expect_ex_kind
             && worker.num_received_ex () != expect_num_ex)
            || expect_ex_kind == TAO::FOE_NON))
      {
        std::cout << ".";
        now += 1;
        ACE_Time_Value tv (1, 0);
        orb->run (tv);
      }
      std::cout << std::endl;

      worker.done ();

      if (do_shutdown)
        {
          CORBA::Object_var object =
            orb->string_to_object (ior);

          Simple_Server_var server =
            Simple_Server::_narrow (object.in ());

          server->shutdown ();
        }

      ACE_OS::sleep (1);

      orb->destroy ();

      worker.thr_mgr ()->wait ();

      if (worker.received_ex_kind () != expect_ex_kind
        || worker.num_received_ex () != expect_num_ex)
      {
        ACE_ERROR_RETURN ((LM_ERROR,
          ("(%P|%t)client: test failed - expected is different from received. "
          "expected %d/%d received %d/%d.\n"),
          expect_ex_kind, expect_num_ex, worker.received_ex_kind (), worker.num_received_ex()),
                          1);
      }

      ACE_DEBUG ((LM_DEBUG, "(%P|%t)client: test passed.\n"));
    }
  catch (const CORBA::Exception& ex)
    {
      ex._tao_print_exception ("Exception caught in main:");
      return 1;
    }

  return 0;
}
Esempio n. 3
0
//
// Shows the selected item's disk starting sector, size, and queue depth.
//
void CPageDisk::ShowSettings()
{
	Manager *manager;
	Worker	*worker;
	int disk_size;
	int disk_start;
	int queue_depth;

	// Get the values for the disk settings from memory.
	switch ( theApp.pView->m_pWorkerView->GetSelectedType() )
	{
	case WORKER:
		worker = theApp.pView->m_pWorkerView->GetSelectedWorker();
		disk_size = worker->GetDiskSize( GenericDiskType );
		disk_start = worker->GetDiskStart( GenericDiskType );
		queue_depth = worker->GetQueueDepth( GenericDiskType );
		break;
	case MANAGER:
		manager = theApp.pView->m_pWorkerView->GetSelectedManager();
		disk_size = manager->GetDiskSize( GenericDiskType );
		disk_start = manager->GetDiskStart( GenericDiskType );
		queue_depth = manager->GetQueueDepth( GenericDiskType );
		break;
	default:
		disk_size = theApp.manager_list.GetDiskSize( GenericDiskType );
		disk_start = theApp.manager_list.GetDiskStart( GenericDiskType );
		queue_depth = theApp.manager_list.GetQueueDepth( GenericDiskType );
	}
	// If there is a displayable value, display it.  Otherwise, hide the content
	// of the edit box.
	if ( disk_size == AMBIGUOUS_VALUE )
	{
		m_EDiskSize.SetPasswordChar( 32 );
		m_EDiskSize.Invalidate();
	}
	else
	{
		m_EDiskSize.SetPasswordChar( 0 );
		SetDlgItemInt( EDiskSize, disk_size );
	}

	if ( disk_start == AMBIGUOUS_VALUE )
	{
		m_EDiskStart.SetPasswordChar( 32 );
		m_EDiskStart.Invalidate();
	}
	else
	{
		m_EDiskStart.SetPasswordChar( 0 );
		SetDlgItemInt( EDiskStart, disk_start );
	}
	
	if ( queue_depth == AMBIGUOUS_VALUE )
	{
		m_EQueueDepth.SetPasswordChar( 32 );
		m_EQueueDepth.Invalidate();
	}
	else
	{
		m_EQueueDepth.SetPasswordChar( 0 );
		SetDlgItemInt( EQueueDepth, queue_depth );
	}
}
Esempio n. 4
0
void CPageDisk::ShowTargetSelection()
{
	Manager			*manager;
	Worker			*worker;
	HTREEITEM		hiface;
	int				w, i, expected_worker, iface_count, wkr_count;
	TargetSelType	state;
	Target_Spec		target_info;

	// Get the selected manager.
	manager = theApp.pView->m_pWorkerView->GetSelectedManager();
	// Get the first disk item from the target tree.
	hiface = m_TTargets.GetRootItem();

	switch ( theApp.pView->m_pWorkerView->GetSelectedType() )
	{
	case WORKER:
		// A worker is selected, show its assigned targets.
		worker = theApp.pView->m_pWorkerView->GetSelectedWorker();

		// Loop through the manager's disks, and mark which ones are selected
		// for the worker.
		iface_count = manager->InterfaceCount( GenericDiskType );
		for ( i = 0; i < iface_count; i++ )
		{
			if ( worker->IsTargetAssigned( manager->GetInterface(i, GenericDiskType)))
				SetSelectionCheck( hiface, TargetChecked );
			else
				SetSelectionCheck( hiface, TargetUnChecked );

			hiface = m_TTargets.GetNextSiblingItem( hiface );
		}
		break;

	case MANAGER:
		// Show the targets assigned to a manager's workers if possible.
		expected_worker = 0;

		// Loop through the manager's disks, and see if they are assigned
		// to the expected worker.  If not, gray all of them and return.
		iface_count = manager->InterfaceCount( GenericDiskType );
		wkr_count = manager->WorkerCount( GenericDiskType );
		for ( i = 0; i < iface_count; i++ )
		{
			memcpy( &target_info, manager->GetInterface( i, GenericDiskType ), 
				sizeof( Target_Spec ) );
			state = TargetUnChecked;
			for ( w = 0; w < wkr_count; w++ )
			{
				// If the disk is selected by any other than expected
				// worker, all the disk check boxes are grayed.
				if ( manager->GetWorker(w, GenericDiskType)->IsTargetAssigned(
					&target_info ) )
				{
					if ( w != expected_worker || state != TargetUnChecked )
					{
						SetAllCheck( TargetGrayed );
						return;
					}
					state = TargetChecked;
					if ( ++expected_worker == wkr_count )
					{
						expected_worker = 0;
					}
				}
			}
			SetSelectionCheck( hiface, state );
			hiface = m_TTargets.GetNextSiblingItem( hiface );
		}
		break;
	default:
		SetAllCheck( TargetGrayed );
		break;
	}
}
Esempio n. 5
0
//
// Stores the targets that have been selected by the user with the appropriate
// worker.
//
void CPageDisk::StoreTargetSelection()
{
	HTREEITEM hdisk;
	Manager *manager;
	Worker	*worker;
	int		target = 0;
	int		next_worker;
	
	// Get the selected manager and worker.
	manager = theApp.pView->m_pWorkerView->GetSelectedManager();
	worker = theApp.pView->m_pWorkerView->GetSelectedWorker();

	// Make sure we have a selected manager (or worker).
	if ( !manager )
	{
		ErrorMessage( "Unexpectedly found no selected manager in "
			"CPageDisk::StoreTargetSelection." );
		return;
	}

	if ( worker )
	{
		// Assign the targets to the selected worker in the order that they
		// appear in the GUI.
		worker->RemoveTargets( GenericDiskType );
		for ( hdisk = m_TTargets.GetRootItem(); hdisk; hdisk = 
			m_TTargets.GetNextSiblingItem( hdisk ) )
		{
			if ( GetSelectionCheck( hdisk ) == TargetChecked )
				worker->AddTarget( manager->GetInterface( target, GenericDiskType ) );
			target++;
		}
	}
	else
	{
		// Clear the assigned targets from all the manager's workers.
		manager->RemoveTargets( GenericDiskType );

		// Set the first worker to receive targets.
		worker = manager->GetWorker( 0, GenericDiskType );
		next_worker = 0;

		// Assign the targets to the workers of the selected manager.
		for ( hdisk = m_TTargets.GetRootItem(); hdisk; hdisk = 
			m_TTargets.GetNextSiblingItem( hdisk ) )
		{
			// If the disk is selected in the GUI, assign it to the expected
			// worker.
			if ( GetSelectionCheck( hdisk ) == TargetChecked )
			{
				worker->AddTarget( manager->GetInterface( target, GenericDiskType ));

				// Update who the next worker to receive a target is.
				if ( ++next_worker >= manager->WorkerCount( GenericDiskType ) )
					next_worker = 0;
				worker = manager->GetWorker( next_worker, GenericDiskType );
			}
			target++;
		}
	}
	ShowTargetSelection();
}
Esempio n. 6
0
int
ACE_TMAIN(int argc, ACE_TCHAR *argv[])
{
  int priority =
    (ACE_Sched_Params::priority_min (ACE_SCHED_FIFO)
     + ACE_Sched_Params::priority_max (ACE_SCHED_FIFO)) / 2;

  priority = ACE_Sched_Params::next_priority (ACE_SCHED_FIFO,
                                              priority);

  priority = ACE_Sched_Params::next_priority (ACE_SCHED_FIFO,
                                              priority);

  // Enable FIFO scheduling, e.g., RT scheduling class on Solaris.
  if (ACE_OS::sched_params (ACE_Sched_Params (ACE_SCHED_FIFO,
                                              priority,
                                              ACE_SCOPE_PROCESS)) != 0)
    {
      if (ACE_OS::last_error () == EPERM)
        {
          ACE_DEBUG ((LM_DEBUG,
                      "server (%P|%t): user is not superuser, "
                      "test runs in time-shared class\n"));
        }
      else
        ACE_ERROR ((LM_ERROR,
                    "server (%P|%t): sched_params failed\n"));
    }

  try
    {
      CORBA::ORB_var orb =
        CORBA::ORB_init (argc, argv);

      CORBA::Object_var poa_object =
        orb->resolve_initial_references("RootPOA");

      if (CORBA::is_nil (poa_object.in ()))
        ACE_ERROR_RETURN ((LM_ERROR,
                           " (%P|%t) Unable to initialize the POA.\n"),
                          1);

      PortableServer::POA_var root_poa =
        PortableServer::POA::_narrow (poa_object.in ());

      PortableServer::POAManager_var poa_manager =
        root_poa->the_POAManager ();

      poa_manager->activate ();

      if (parse_args (argc, argv) != 0)
        return 1;

      CORBA::Object_var progress_object =
        orb->string_to_object (ior);

      Progress_var progress =
        Progress::_narrow (progress_object.in ());

      ACE_Time_Value delay (0, interval);

      Peer_i peer;
      peer.init (orb.in (),
                 progress.in (),
                 delay);

      Worker worker (orb.in ());
      if (worker.activate (THR_NEW_LWP | THR_JOINABLE,
                           nthreads) != 0)
        ACE_ERROR_RETURN ((LM_ERROR,
                           "Cannot activate client threads\n"),
                          1);

      worker.thr_mgr ()->wait ();

      ACE_DEBUG ((LM_DEBUG, "event loop finished\n"));
    }
  catch (const CORBA::Exception& ex)
    {
      ex._tao_print_exception ("Caught exception:");
      return 1;
    }

  return 0;
}
Esempio n. 7
0
void* Worker::dispatch(void *arg) {
    Worker *worker = (Worker *) arg;
    worker->handleTasks();
    //delete worker;
    return 0;
}
Esempio n. 8
0
Worker* PeopleGenerator::GenerateWorker()
{
	std::string spriteName = "Worker";
	Worker* result = new Worker();
	result->Speed = 1.5f;
	result->Happiness = 0.5f;
	result->Age = 30;
	if (rand() % 2)
	{
		result->PersonGender = Person::Gender::Male;
		spriteName += "_Male";

		int blarand = rand() % 7;

		if (blarand == 0)
		{
			spriteName += "_Asian";
			result->CleaningOffsets[0] = sf::Vector2f(153, 38);
			result->CleaningOffsets[1] = sf::Vector2f(-163, 48);
			result->CleaningOffsets[2] = sf::Vector2f(-49, -86);
			result->CleaningOffsets[3] = sf::Vector2f(33, -87);
		}
		if (blarand == 1)
		{
			spriteName += "_Black";
			result->CleaningOffsets[0] = sf::Vector2f(230, -40);
			result->CleaningOffsets[1] = sf::Vector2f(-246, -30);
			result->CleaningOffsets[2] = sf::Vector2f(-110, -243);
			result->CleaningOffsets[3] = sf::Vector2f(23, -243);
		}
		if (blarand == 2)
		{
			spriteName += "_Grandpa";
		}
		if (blarand == 3)
		{
			spriteName += "_Indian";
			result->CleaningOffsets[0] = sf::Vector2f(39, 40);
			result->CleaningOffsets[1] = sf::Vector2f(-54, 50);
			result->CleaningOffsets[2] = sf::Vector2f(-63, -40);
			result->CleaningOffsets[3] = sf::Vector2f(0, -41);
		}
		if (blarand == 4)
		{
			spriteName += "_Intern";
		}
		if (blarand == 5)
		{
			spriteName += "_Mexican";
			result->CleaningOffsets[0] = sf::Vector2f(111, 39);
			result->CleaningOffsets[1] = sf::Vector2f(-126, 49);
			result->CleaningOffsets[2] = sf::Vector2f(-16, -47);
			result->CleaningOffsets[3] = sf::Vector2f(3, -46);
		}
		if (blarand == 6)
		{
			spriteName += "_Russian";
		}
	}
	else
	{
		result->PersonGender = Person::Gender::Female;
		spriteName += "_Female";

		int blarand = rand() % 2;

		if (blarand == 0)
		{
			spriteName += "_Bitch";
		}
		if (blarand == 1)
		{
			spriteName += "_Intern";
			result->CleaningOffsets[0] = sf::Vector2f(16, -90);
			result->CleaningOffsets[1] = sf::Vector2f(-2, -80);
			result->CleaningOffsets[2] = sf::Vector2f(-40, -143);
			result->CleaningOffsets[3] = sf::Vector2f(73, -161);
		}
	}

	std::wstring name = L"";
	if (result->PersonGender == Person::Gender::Male)
	{
		name += this->FirstNamesMale[rand() % this->FirstNamesMale.size()] + L" ";
	}
	else
	{
		name += this->FirstNamesFemale[rand() % this->FirstNamesFemale.size()] + L" ";
	}
	if (rand() % 100 < 5)
	{
		if (result->PersonGender == Person::Gender::Male)
		{
			name += this->FirstNamesMale[rand() % this->FirstNamesMale.size()] + L" ";
		}
		else
		{
			name += this->FirstNamesFemale[rand() % this->FirstNamesFemale.size()] + L" ";
		}

		if (rand() % 100 < 5)
		{
			if (result->PersonGender == Person::Gender::Male)
			{
				name += this->FirstNamesMale[rand() % this->FirstNamesMale.size()] + L" ";
			}
			else
			{
				name += this->FirstNamesFemale[rand() % this->FirstNamesFemale.size()] + L" ";
			}
		}
	}

	name += this->Surnames[rand() % this->Surnames.size()];

	result->Name = name;

	result->Grid = this->Grid;
	result->CleaningEfficiency = (float)(rand() % 100 + 1) / 100.0f;
	result->CashieringEfficiency = (float)(rand() % 100 + 1) / 100.0f;
	result->RefillingEfficiency = (float)(rand() % 100 + 1) / 100.0f;
	result->calculateWageExpectency();
	result->Messages = this->Messages;
	result->ThePathfinder = this->ThePathfinder;
	result->Sprite = this->TexHandler->GetSprite(spriteName + "_Front");
	result->BackSprite = this->TexHandler->GetSprite(spriteName + "_Back");
	result->SpriteName = spriteName;
	result->Origins = this->TexHandler->GetOrigins(spriteName);
	result->WorkerType = Worker::Type::Storager;
	result->Jobs = this->Jobs;
	result->TheStorage = this->ProductStorage;
	result->Wage = 7.00;
	result->WorkHours = 8;
	result->WorkDays[0] = true;
	result->WorkDays[1] = true;
	result->WorkDays[2] = true;
	result->WorkDays[3] = true;
	result->WorkDays[4] = true;
	result->WorkDays[5] = true;
	result->WorkDays[6] = false;
	result->Feed = this->Feed;

	return result;
}
Esempio n. 9
0
 int Worker::main(void* _worker)
 {
   Worker* worker = static_cast<Worker*>(_worker);
   worker->loop();
   return 0;
 }
Esempio n. 10
0
int main(int argc, char const *argv[]) {
    Worker john;
    john.greeting();
    exiter();
    return 0;
}
Esempio n. 11
0
void
Controller::restore(QString filename)
{
    Worker *worker = new Worker(this, Controller::RESTORE, filename);
    worker->start();
}
Esempio n. 12
0
void
Controller::backup(QString filename)
{
    Worker *worker = new Worker(this, Controller::BACKUP, filename);
    worker->start();
}
Esempio n. 13
0
 Tbb_Folder(Worker & w)
 :w_(w)
 {
     out_ = w.neutral_(nt2::meta::as_<result_type>());
 }
Esempio n. 14
0
static void *worker_run(void *arg)
{
    Worker *worker = (Worker *)arg;
    worker->run();
    return NULL;
}
Esempio n. 15
0
int
ACE_TMAIN(int argc, ACE_TCHAR *argv[])
{
  try
    {
      CORBA::ORB_var orb =
        CORBA::ORB_init (argc, argv);

      if (parse_args (argc, argv) != 0)
        return 1;

      Worker worker (orb.in ());

      if (worker.activate (THR_NEW_LWP | THR_JOINABLE,
                           nthreads) != 0)
        ACE_ERROR_RETURN ((LM_ERROR,
                           "(%P|%t) Cannot activate worker threads\n"),
                          1);

      int timeout = 30;
      int now = 0;
      while (now < timeout &&
             ((expect_ex_kind == 0 && !worker.invocation_completed ()) ||
              (expect_ex_kind != 0 && expect_ex_kind != worker.received_ex_kind ()))
             )
        {
          std::cout << "." << std::flush;
          now += 1;
          ACE_Time_Value tv (1, 0);
          orb->run (tv);
        }
      ACE_ASSERT (now != 0);


      std::cout << std::endl;

      worker.done ();

      CORBA::Object_var object =
        orb->string_to_object (ior);

      Simple_Server_var server =
        Simple_Server::_narrow (object.in ());

      server->shutdown ();

      ACE_OS::sleep (1);

      orb->destroy ();

      worker.thr_mgr ()->wait ();


      bool expect_no_ex =
        expect_ex_kind == TAO::FOE_NON && worker.num_received_ex () == 0 && worker.invocation_completed ();
      bool expect_ex_received =
        expect_ex_kind == worker.received_ex_kind () && worker.num_received_ex () > 0 && !worker.invocation_completed ();
      if (expect_no_ex || expect_ex_received)
        {
          ACE_DEBUG ((LM_DEBUG, "(%P|%t)client: test passed.\n"));
          return 0;
        }
      else
        {
          ACE_DEBUG ((LM_ERROR, "(%P|%t)client: test failed.\n"));
          return 1;
        }
    }

  catch (const CORBA::Exception& ex)
    {
      ex._tao_print_exception ("Exception caught in main:");
      return 1;
    }

  return 0;
}
Esempio n. 16
0
int main(int argc, char** argv){
    MPI_Init(&argc, &argv);
    Worker worker;
    worker.run();
    MPI_Finalize();
}
Esempio n. 17
0
  void TntnetImpl::run()
  {
    log_debug("worker-process");

    _stop = false;

    if (_listeners.empty())
      throwRuntimeError("no listeners defined");

    log_debug(_listeners.size() << " listeners");

    if (_listeners.size() >= _minthreads)
    {
      log_warn("at least one more worker than listeners needed - set MinThreads to "
        << _listeners.size() + 1);
      _minthreads = _listeners.size() + 1;
    }

    if (_maxthreads < _minthreads)
    {
      log_warn("MaxThreads < MinThreads - set MaxThreads = MinThreads = " << _minthreads);
      _maxthreads = _minthreads;
    }

    // initialize worker-process

    // SIGPIPE must be ignored
    ::signal(SIGPIPE, SIG_IGN);

    // create worker-threads
    log_info("create " << _minthreads << " worker threads");
    for (unsigned i = 0; i < _minthreads; ++i)
    {
      log_debug("create worker " << i);
      Worker* s = new Worker(*this);
      s->create();
    }

    // create poller-thread
    log_debug("start poller thread");
    _pollerthread.start();

    log_debug("start timer thread");
    cxxtools::AttachedThread timerThread(cxxtools::callable(*this, &TntnetImpl::timerTask));
    timerThread.start();

    {
      cxxtools::MutexLock lock(allTntnetInstancesMutex);
      allRunningTntnetInstances.insert(this);
    }

    // mainloop
    cxxtools::Mutex mutex;
    while (!_stop)
    {
      {
        cxxtools::MutexLock lock(mutex);
        _queue.noWaitThreads.wait(lock);
      }

      if (_stop)
        break;

      if (Worker::getCountThreads() < _maxthreads)
      {
        log_info("create workerthread");
        Worker* s = new Worker(*this);
        s->create();
      }
      else
        log_info("max worker-threadcount " << _maxthreads << " reached");

      if (TntConfig::it().threadStartDelay > 0)
        usleep(TntConfig::it().threadStartDelay.totalUSecs());
    }

    log_info("stopping TntnetImpl");

    {
      cxxtools::MutexLock lock(allTntnetInstancesMutex);
      allRunningTntnetInstances.erase(this);
    }

    log_info("stop listener");
    for (listeners_type::iterator it = _listeners.begin(); it != _listeners.end(); ++it)
      (*it)->terminate();

    log_info("stop poller thread");
    _poller.doStop();
    _pollerthread.join();

    log_info("stop timer thread");
    timerThread.join();

    if (Worker::getCountThreads() > 0)
    {
      log_info("wait for " << Worker::getCountThreads() << " worker threads to stop");
      while (Worker::getCountThreads() > 0)
      {
        log_debug("wait for worker threads to stop; " << Worker::getCountThreads() << " left");
        usleep(100);
      }
    }

    log_debug("destroy listener");
    for (listeners_type::iterator it = _listeners.begin(); it != _listeners.end(); ++it)
      delete *it;
    _listeners.clear();

    HttpReply::postRunCleanup();
    HttpRequest::postRunCleanup();

    log_info("all threads stopped");
  }
Esempio n. 18
0
int main(int argc, char* argv[]){
    Worker wk;
    wk.Start();
    return 0;
}
Esempio n. 19
0
int Query_Processor::svc()
{
	Worker * worker;
	int ret,cached;
	//ScribeProxyClient *client=NULL;
	std::vector<std::string> category;
	int queueLen = 0;
	cerr<<"initialized thread..."<<endl;

	pthread_barrier_wait(processor_init);

	while ((worker = m_task_list.get()) != NULL)
	{
		queueLen = m_task_list.len();

		ret = parse_worker(worker);
		if(ret >= 0)
		{
			// TODO: process the request and fill the result in result
			//snprintf(result, MAX_HTTP_CONTENT_LENGTH, "<h1>Hello world!</h1>Query string: %s", worker->querystring);
			ret = 0;
			//clock_t start=clock();

			//Chat Server 
			string szOrigInput = worker->querystring;

			string res = "";
            //usleep(300000);

			if(szOrigInput == "register_slave")
			{
				std::string server_ip = get_param("server_ip=", worker->uri);
				std::string recv_realtime_req_str = get_param("recv_real_time_request=", worker->uri);
				bool recv_realtime_req = (recv_realtime_req_str == "True")?true:false;
				m_validation->registerSlave(server_ip, recv_realtime_req);
			}
			else if(szOrigInput == "validate")
			{
                string req = get_param("req", worker->uri);
                string type = get_param("type", worker->uri);
                m_validation->handleValidReq(req, type, res);
			}


			// copy the result into worker
			int max_len = 65536000;
			worker->result = (char*)worker->GetMem(max_len);
			if (worker->result == NULL)
			{
				pthread_mutex_unlock(&gMutex);//解锁
				m_httpserver->retrieve_worker(worker);
				continue;
			}
			if("" != res)
			{
				//int max_len = MAX_HTTP_CONTENT_LENGTH;
				worker->result_len = std::min(res.length(), size_t(max_len) - 1) + 1;
				memcpy(worker->result, res.c_str(), worker->result_len);
				worker->result[worker->result_len] = 0;
				_INFO("[ Result: %s]", worker->result);
			}

			//pthread_mutex_unlock(&gMutex);//解锁
		}//if

		int retlen = (ret==-1)?-1:worker->result_len;
		const char * queryStr = (worker->query_len<=0)?"NULL":worker->querystring;
		_INFO("[Observer,cost=%d,ret=%d,querystring=%s,Owner=OP]",WASTE_TIME_US(worker->receive_time),retlen,queryStr);

		m_httpserver->retrieve_worker(worker);
	}//while

	cerr<<"closed thread!!"<<endl;

	return 0;
}
Esempio n. 20
0
int
ACE_TMAIN(int argc, ACE_TCHAR *argv[])
{
  Fixed_Priority_Scheduler* scheduler=0;
  RTScheduling::Current_var current;
  long flags;
  int sched_policy = ACE_SCHED_RR;
  int sched_scope = ACE_SCOPE_THREAD;

  if (sched_policy == ACE_SCHED_RR)
    flags = THR_NEW_LWP | THR_BOUND | THR_JOINABLE | THR_SCHED_RR;
  else
    flags = THR_NEW_LWP | THR_BOUND | THR_JOINABLE | THR_SCHED_FIFO;

  task_stats.init (100000);

  try
    {
      RTScheduling::Scheduler_var sched_owner;

      CORBA::ORB_var orb =
        CORBA::ORB_init (argc, argv);

      CORBA::Object_var poa_object =
        orb->resolve_initial_references("RootPOA");

      if (CORBA::is_nil (poa_object.in ()))
        ACE_ERROR_RETURN ((LM_ERROR,
                           " (%P|%t) Unable to initialize the POA.\n"),
                          1);

      PortableServer::POA_var root_poa =
        PortableServer::POA::_narrow (poa_object.in ());

      PortableServer::POAManager_var poa_manager =
        root_poa->the_POAManager ();

      if (parse_args (argc, argv) != 0)
        return 1;

      if (enable_dynamic_scheduling)
        {
          CORBA::Object_var manager_obj =
            orb->resolve_initial_references ("RTSchedulerManager");

          TAO_RTScheduler_Manager_var manager =
            TAO_RTScheduler_Manager::_narrow (manager_obj.in ());

          Kokyu::DSRT_Dispatcher_Impl_t disp_impl_type;
          if (enable_yield)
            {
              disp_impl_type = Kokyu::DSRT_CV_BASED;
            }
          else
            {
              disp_impl_type = Kokyu::DSRT_OS_BASED;
            }

          ACE_NEW_RETURN (scheduler,
                          Fixed_Priority_Scheduler (orb.in (),
                                         disp_impl_type,
                                         sched_policy,
                                         sched_scope), -1);
          sched_owner = scheduler;

          manager->rtscheduler (scheduler);

          CORBA::Object_var object =
            orb->resolve_initial_references ("RTScheduler_Current");

          current  =
            RTScheduling::Current::_narrow (object.in ());
        }

      Simple_Server_i server_impl (orb.in (),
                                   current.in (),
                                   task_stats,
                                   enable_yield);

      Simple_Server_var server =
        server_impl._this ();

      CORBA::String_var ior =
        orb->object_to_string (server.in ());

      ACE_DEBUG ((LM_DEBUG, "Activated as <%C>\n", ior.in ()));

      // If the ior_output_file exists, output the ior to it
      if (ior_output_file != 0)
        {
          FILE *output_file= ACE_OS::fopen (ior_output_file, "w");
          if (output_file == 0)
            ACE_ERROR_RETURN ((LM_ERROR,
                               "Cannot open output file for writing IOR: %s",
                               ior_output_file),
                              1);
          ACE_OS::fprintf (output_file, "%s", ior.in ());
          ACE_OS::fclose (output_file);
        }

      poa_manager->activate ();

      Worker worker (orb.in ());
      if (worker.activate (flags,
                           nthreads,
                           0,
                           ACE_Sched_Params::priority_max(sched_policy,
                                                          sched_scope)) != 0)
        {
          ACE_ERROR ((LM_ERROR,
                      "Cannot activate threads in RT class.",
                      "Trying to activate in non-RT class\n"));

          flags = THR_NEW_LWP | THR_JOINABLE | THR_BOUND;
          if (worker.activate (flags, nthreads) != 0)
            {
              ACE_ERROR_RETURN ((LM_ERROR,
                                 "Cannot activate server threads\n"),
                                1);
            }
        }

      worker.wait ();

      ACE_DEBUG ((LM_DEBUG, "event loop finished\n"));

      ACE_DEBUG ((LM_DEBUG, "shutting down scheduler\n"));
      scheduler->shutdown ();

      orb->destroy ();
    }
  catch (const CORBA::Exception& ex)
    {
      ex._tao_print_exception ("Exception caught:");
      return 1;
    }

  ACE_DEBUG ((LM_DEBUG, "Exiting main...\n"));
  task_stats.dump_samples (ACE_TEXT("timeline.txt"),
                           ACE_TEXT("Time\t\tGUID"));
  return 0;
}
Esempio n. 21
0
int
ACE_TMAIN(int argc, ACE_TCHAR *argv[])
{
  try
    {
      CORBA::ORB_var orb =
        CORBA::ORB_init (argc, argv);

      CORBA::Object_var poa_object =
        orb->resolve_initial_references ("RootPOA");

      if (CORBA::is_nil (poa_object.in ()))
        ACE_ERROR_RETURN ((LM_ERROR,
                           " (%P|%t) Unable to initialize the POA.\n"),
                          1);

      PortableServer::POA_var root_poa =
        PortableServer::POA::_narrow (poa_object.in ());

      PortableServer::POAManager_var poa_manager =
        root_poa->the_POAManager ();

      if (parse_args (argc, argv) != 0)
        return 1;

      Simple_Server_i *server_impl = 0;
      ACE_NEW_RETURN (server_impl,
                      Simple_Server_i (orb.in ()),
                      -1);

      PortableServer::ServantBase_var owner_transfer(server_impl);

      PortableServer::ObjectId_var id =
        root_poa->activate_object (server_impl);

      CORBA::Object_var object = root_poa->id_to_reference (id.in ());

      Simple_Server_var server =
        Simple_Server::_narrow (object.in ());

      CORBA::String_var ior =
        orb->object_to_string (server.in ());

      ACE_DEBUG ((LM_DEBUG, "Activated as <%C>\n", ior.in ()));

      // If the ior_output_file exists, output the ior to it
      if (ior_output_file != 0)
        {
          FILE *output_file= ACE_OS::fopen (ior_output_file, "w");
          if (output_file == 0)
            ACE_ERROR_RETURN ((LM_ERROR,
                               "(%P|%t) Cannot open output file for writing IOR: %s",
                               ior_output_file),
                              1);
          ACE_OS::fprintf (output_file, "%s", ior.in ());
          ACE_OS::fclose (output_file);
        }

      poa_manager->activate ();

      Worker worker (orb.in ());
      if (worker.activate (THR_NEW_LWP | THR_JOINABLE,
                           nthreads) != 0)
        ACE_ERROR_RETURN ((LM_ERROR,
                           "(%P|%t) Cannot activate client threads\n"),
                          1);

      SelfClient selfabuse (orb.in(), server.in(), niterations);
      if (selfabuse.activate (THR_NEW_LWP | THR_JOINABLE,
                              nclient_threads) != 0)
        ACE_ERROR_RETURN ((LM_ERROR,
                           "(%P|%t) Cannot activate abusive threads\n"),
                          1);

      selfabuse.thr_mgr()->wait();

      worker.thr_mgr ()->wait ();

      ACE_DEBUG ((LM_DEBUG,
                  "(%P|%t) event loop finished\n"));
    }
  catch (const CORBA::Exception& ex)
    {
      ex._tao_print_exception ("Exception caught:");
      return 1;
    }

  return 0;
}
Esempio n. 22
0
int handleConnection(ClientSocket* socket)
{
    Worker* worker = new Worker(socket);
    worker->run();
    return 0;
}
Esempio n. 23
0
//--------- Begin of function Firm::spy_birbe_succeed_chance ---------//
//
// The money the spy offers to bribe the unit.
//
// <int>   bribeAmount	  - the amount offered
// <short> birberSpyRecno - spy recno of the briber
// <short> workerId		  - if 0, then bribe the overseer,
//									 if >0, then bribe a worker.
//
// return: <int> 1 - bribing succeeded
//					  0 - bribing failed
//
int Firm::spy_bribe_succeed_chance(int bribeAmount, short briberSpyRecno, short workerId)
{
	Spy* spyPtr = spy_array[briberSpyRecno];

	err_when( spyPtr->spy_place != SPY_FIRM );
	err_when( spyPtr->spy_place_para != firm_recno );

	//---- if the bribing target is a worker ----//

	int unitLoyalty, unitRaceId, targetSpyRecno, unitCommandPower;

	if( workerId )
	{
		Worker* workerPtr = worker_array+workerId-1;

		unitLoyalty = workerPtr->loyalty();
		unitRaceId  = workerPtr->race_id;
		unitCommandPower = 0;
		targetSpyRecno = workerPtr->spy_recno;
	}
	else if( overseer_recno )
	{
		Unit* unitPtr = unit_array[overseer_recno];

		unitLoyalty = unitPtr->loyalty;
		unitRaceId  = unitPtr->race_id;
		unitCommandPower = unitPtr->commander_power();
		targetSpyRecno = unitPtr->spy_recno;
	}
	else
		err_here();

	err_when( unitRaceId < 1 || unitRaceId > MAX_RACE );

	//---- determine whether the bribe will be successful ----//

	int succeedChance;

	if( targetSpyRecno )		// if the bribe target is also a spy
	{
		err_when( spy_array[targetSpyRecno]->true_nation_recno == spyPtr->true_nation_recno );		// the player shouldn't be able to bribe units of his own

		succeedChance = 0;
	}
	else
	{
		succeedChance = spyPtr->spy_skill - unitLoyalty - unitCommandPower
							 + (int) nation_array[spyPtr->true_nation_recno]->reputation
							 + 200 * bribeAmount / MAX_BRIBE_AMOUNT;

		//-- the chance is higher if the spy or the spy's king is racially homongenous to the bribe target,

		int spyKingRaceId = nation_array[ spyPtr->true_nation_recno ]->race_id;

		succeedChance += race_res.is_same_race(spyPtr->race_id, unitRaceId) * 10 +
							  race_res.is_same_race(spyKingRaceId, unitRaceId) * 10;

		if( unitLoyalty > 60 )			// harder for bribe units with over 60 loyalty
			succeedChance -= (unitLoyalty-60);

		if( unitLoyalty > 70 )			// harder for bribe units with over 70 loyalty
			succeedChance -= (unitLoyalty-70);

		if( unitLoyalty > 80 )			// harder for bribe units with over 80 loyalty
			succeedChance -= (unitLoyalty-80);

		if( unitLoyalty > 90 )			// harder for bribe units with over 90 loyalty
			succeedChance -= (unitLoyalty-90);

		if( unitLoyalty == 100 )
			succeedChance = 0;
	}

	return succeedChance;
}
Esempio n. 24
0
int main(int argc, char **argv) {
	std::srand ( 0 );
	std::cout.precision(10);
	Config config;
	if (!config.fromCommandline(argc, argv)) {
		return 1;
	}
#ifdef __ANDROID__
	std::cout << "Parsed the commandline" << std::endl;
#endif
	
	Worker worker;
	liboscar::Static::OsmCompleter & osmCompleter = worker.completer;
	osmCompleter.setAllFilesFromPrefix(config.inFileName);


#ifdef __ANDROID__
	std::cout << "Trying to energize" << std::endl;
#endif
	
	try {
		osmCompleter.energize();
	}
	catch (const std::exception & e) {
		std::cerr << "Error occured: " << e.what() << std::endl;
		return 1;
	}
#ifdef __ANDROID__
	std::cout << "Doing the work" << std::endl;
#endif
	bool allOk = true;
	for(std::size_t i(0), s(config.workItems.size()); i < s; ++i) {
		Config::WorkItem & workItem = config.workItems[i];
// 		try {
			switch (workItem.type) {
			case Config::WorkItem::SELECT_TEXT_COMPLETER:
				worker.selectTextCompleter(*workItem.data->as<WD_SelectTextCompleter>());
				break;
			case Config::WorkItem::SELECT_GEO_COMPLETER:
				worker.selectGeoCompleter(*workItem.data->as<WD_SelectGeoCompleter>());
			case Config::WorkItem::PRINT_SELECTED_TEXT_COMPLETER:
				worker.printSelectedTextCompleter();
				break;
			case Config::WorkItem::PRINT_SELECTED_GEO_COMPLETER:
				worker.printSelectedGeoCompleter();
				break;
			case Config::WorkItem::GH_ID_2_STORE_ID:
				worker.ghId2StoreId(*workItem.data->as<WD_GhId2StoreId>());
				break;
			case Config::WorkItem::DUMP_INDEX:
				worker.dumpIndex(*workItem.data->as<WD_DumpIndex>());
				break;
			case Config::WorkItem::DUMP_ITEM:
				worker.dumpItem(*workItem.data->as<WD_DumpItem>());
				break;
			case Config::WorkItem::DUMP_ALL_ITEMS:
				worker.dumpAllItems(*workItem.data->as<WD_DumpAllItems>());
				break;
			case Config::WorkItem::DUMP_ALL_ITEM_TAGS_WITH_INHERITED_TAGS:
				worker.dumpAllItemTagsWithInheritedTags(*workItem.data->as<WD_DumpAllItemTagsWithInheritedTags>());
				break;
			case Config::WorkItem::DUMP_GH_REGION:
				worker.dumpGhRegion(*workItem.data->as<WD_DumpGhRegion>());
				break;
			case Config::WorkItem::DUMP_GH_CELL:
				worker.dumpGhCell(*workItem.data->as<WD_DumpGhCell>());
				break;
			case Config::WorkItem::DUMP_GH_CELL_PARENTS:
				worker.dumpGhCellParents(*workItem.data->as<WD_DumpGhCellParents>());
				break;
			case Config::WorkItem::DUMP_GH_CELL_ITEMS:
				worker.dumpGhCellItems(*workItem.data->as<WD_DumpGhCellItems>());
				break;
			case Config::WorkItem::DUMP_GH_REGION_CHILDREN:
				worker.dumpGhRegionChildren(*workItem.data->as<WD_DumpGhRegionChildren>());
				break;
			case Config::WorkItem::DUMP_GH_REGION_ITEMS:
				worker.dumpGhRegionItems(*workItem.data->as<WD_DumpGhRegionItems>());
				break;
			case Config::WorkItem::DUMP_GH:
				worker.dumpGh(*workItem.data->as<WD_DumpGh>());
				break;
			case Config::WorkItem::DUMP_KEY_STRING_TABLE:
				worker.dumpKeyStringTable(*workItem.data->as<WD_DumpKeyStringTable>());
				break;
			case Config::WorkItem::DUMP_VALUE_STRING_TABLE:
				worker.dumpValueStringTable(*workItem.data->as<WD_DumpValueStringTable>());
				break;
			case Config::WorkItem::DUMP_ITEM_TAGS:
				worker.dumpItemTags(*workItem.data->as<WD_DumpItemTags>());
				break;
			case Config::WorkItem::PRINT_STATS:
				worker.printStats(*workItem.data->as<WD_PrintStats>());
				break;
			case Config::WorkItem::PRINT_PAPER_STATS_DB:
				worker.printPaperStatsDb(*workItem.data->as<WD_PrintPaperStatsDb>());
				break;
			case Config::WorkItem::PRINT_PAPER_STATS_GH:
				worker.printPaperStatsGh(*workItem.data->as<WD_PrintPaperStatsGh>());
				break;
			case Config::WorkItem::PRINT_CTC_STATS:
				worker.printCTCStorageStats(*workItem.data->as<WD_PrintCTCStorageStats>());
				break;
			case Config::WorkItem::PRINT_CTC_SELECTIVE_STATS:
				worker.printCTCSelectiveStorageStats(*workItem.data->as<WD_PrintCTCSelectiveStorageStats>());
				break;
			case Config::WorkItem::PRINT_CQR_DATA_SIZE:
				worker.printCQRDataSize(*workItem.data->as<WD_PrintCQRDataSize>());
				break;
			case Config::WorkItem::LIST_COMPLETERS:
				worker.listCompleters();
				break;
			case Config::WorkItem::INTERACTIVE_PARTIAL:
				worker.interactivePartial(*workItem.data->as<WD_InteractivePartial>());
				break;
			case Config::WorkItem::INTERACTIVE_SIMPLE:
				worker.interactiveSimple(*workItem.data->as<WD_InteractiveSimple>());
				break;
			case Config::WorkItem::INTERACTIVE_FULL:
				worker.interactiveFull(*workItem.data->as<WD_InteractiveFull>());
				break;
			case Config::WorkItem::COMPLETE_STRING_PARTIAL:
				worker.completeStringPartial(*workItem.data->as<WD_CompleteStringPartial>());
				break;
			case Config::WorkItem::COMPLETE_STRING_SIMPLE:
				worker.completeStringSimple(*workItem.data->as<WD_CompleteStringSimple>());
				break;
			case Config::WorkItem::COMPLETE_STRING_FULL:
				worker.completeStringFull(*workItem.data->as<WD_CompleteStringFull>());
				break;
			case Config::WorkItem::COMPLETE_STRING_CLUSTERED:
				worker.completeStringClustered(*workItem.data->as<WD_CompleteStringClustered>(), false);
				break;
			case Config::WorkItem::COMPLETE_STRING_CLUSTERED_TREED_CQR:
				worker.completeStringClustered(*workItem.data->as<WD_CompleteStringClustered>(), true);
				break;
			case Config::WorkItem::COMPLETE_FROM_FILE_PARTIAL:
				worker.completeFromFilePartial(*workItem.data->as<WD_CompleteFromFilePartial>());
				break;
			case Config::WorkItem::COMPLETE_FROM_FILE_SIMPLE:
				worker.completeFromFileSimple(*workItem.data->as<WD_CompleteFromFileSimple>());
				break;
			case Config::WorkItem::COMPLETE_FROM_FILE_FULL:
				worker.completeFromFileFull(*workItem.data->as<WD_CompleteFromFileFull>());
				break;
			case Config::WorkItem::COMPLETE_FROM_FILE_CLUSTERED:
				worker.completeFromFileClustered(*workItem.data->as<WD_CompleteFromFileClustered>(), false);
				break;
			case Config::WorkItem::COMPLETE_FROM_FILE_CLUSTERED_TREED_CQR:
				worker.completeFromFileClustered(*workItem.data->as<WD_CompleteFromFileClustered>(), true);
				break;
			case Config::WorkItem::SYMDIFF_ITEMS_COMPLETERS:
				worker.symDiffCompleters(*workItem.data->as<WD_SymDiffItemsCompleters>());
			case Config::WorkItem::CONSISTENCY_CHECK:
				worker.consistencyCheck(*workItem.data->as<WD_ConsistencyCheck>());
				break;
			case Config::WorkItem::CREATE_COMPLETION_STRINGS:
				worker.createCompletionStrings(*workItem.data->as<WD_CreateCompletionStrings>());
				break;
			case Config::WorkItem::BENCHMARK:
				worker.benchmark(*workItem.data->as<WD_Benchmark>());
				break;
			default:
				throw std::runtime_error("Bad operation. Unkown work item.");
			};
// 		}
// 		catch(std::exception & e) {
// 			std::cerr << "Error occured: " << e.what() << std::endl;
// 			allOk = false;
// 		}
	}
	return (allOk ? 0 : 1);
}
Esempio n. 25
0
//
// Enabling controls on the form for user access.
//
void CPageDisk::EnableWindow( BOOL enable )
{
	Manager	*manager;
	Worker	*worker;
	CWnd	*last_focused;

	// Only enable things if a test is not running.
	if ( theApp.test_state != TestIdle )
		return;

	// Get the current worker and manager selections.
	manager = theApp.pView->m_pWorkerView->GetSelectedManager();
	worker = theApp.pView->m_pWorkerView->GetSelectedWorker();

	switch ( theApp.pView->m_pWorkerView->GetSelectedType() )
	{
	case WORKER:
		// Enable the target list only if the selected worker is a disk worker.
		enable = enable && IsType( worker->Type(), GenericDiskType );
		m_TTargets.EnableWindow( enable );

		// If the selected worker is not a disk worker, switch to the network
		// target page.
		if ( !IsType( worker->Type(), GenericDiskType ) && 
			theApp.pView->m_pPropSheet->GetActiveIndex() == DISK_PAGE )
		{
			last_focused = GetFocus();
			theApp.pView->m_pPropSheet->SetActivePage( NETWORK_PAGE );
			if ( last_focused )
				last_focused->SetFocus();
		}
		break;
	case MANAGER:
		// Enable the target list only if the selected manager has a 
		// disk worker.
		enable = enable && manager->WorkerCount( GenericDiskType );
		m_TTargets.EnableWindow( enable );

		// If the selected manager has no disk workers but has network server
		// workers, switch to the network target page.
		if ( !manager->WorkerCount( GenericDiskType ) && 
			manager->WorkerCount( GenericServerType ) && 
			theApp.pView->m_pPropSheet->GetActiveIndex() == DISK_PAGE )
		{
			enable = FALSE;
			last_focused = GetFocus();
			theApp.pView->m_pPropSheet->SetActivePage( NETWORK_PAGE );
			if ( last_focused )
				last_focused->SetFocus();
		}
		break;
	case ALL_MANAGERS:
		// Only enable the connection rate controls if there exists a
		// GenericDiskType worker.
		enable = enable && theApp.manager_list.WorkerCount( GenericDiskType );
		
		// The target list is disabled for all managers.
		m_TTargets.EnableWindow( FALSE );
	}

	// Enable the connection rate check box.
	m_CConnectionRate.EnableWindow( enable );

	// Enable the connection rate edit box and spin control if the connection 
	// rate check box is checked.
	m_EConnectionRate.EnableWindow( enable &&
		m_CConnectionRate.GetCheck() == 1 );
	m_SConnectionRate.EnableWindow( enable &&
		m_CConnectionRate.GetCheck() == 1 );

	// Enable the disk parameter controls.
	m_EDiskStart.EnableWindow( enable );
	m_EDiskSize.EnableWindow( enable );
	m_EQueueDepth.EnableWindow( enable );
		
	// The spin button sometimes needs to be redrawn even if it didn't change
	// when the edit box was partially redrawn.
	m_SConnectionRate.Invalidate( TRUE );

	// Redraw the page.  Note that all the child windows will be redrawn too.
	// Also note that only windows that have already been invalidated will get
	// redrawn, avoiding much flicker.
	RedrawWindow( NULL, NULL, RDW_ALLCHILDREN | RDW_UPDATENOW | RDW_ERASE );
}
//
// Saving the access specification list to a result file.
// Saves only the currently active access specs.
//
BOOL AccessSpecList::SaveResults( ostream& outfile )
{
	int i, j;
	int access_count, manager_count, worker_count, current_access_index;
	Manager *mgr;
	Worker *wkr;
	BOOL *spec_active;
	Test_Spec *spec;

	outfile << "'Access specifications" << endl;

	access_count = Count();
	spec_active = new BOOL[ access_count ];

	// Determine which access specs are active for the current test
	// Start by marking all access specs inactive.
	for ( i = 1; i < access_count; i++ )
	{
		spec_active[i] = FALSE;
	}

	current_access_index = theApp.pView->GetCurrentAccessIndex();
	// Now go through all the workers and mark each worker's current access spec 
	// as active, IF the worker is actually doing anything in this test.
	manager_count = theApp.manager_list.ManagerCount();
	for ( i = 0; i < manager_count; i++ )
	{
		mgr = theApp.manager_list.GetManager( i );
		worker_count = mgr->WorkerCount();
		for ( j = 0; j < worker_count; j++ )
		{
			wkr = mgr->GetWorker( j );
			if ( wkr->ActiveInCurrentTest() )
			{
				spec_active[ IndexByRef( wkr->GetAccessSpec( 
								current_access_index ) ) ] = TRUE;
			}
		}
	}

	// Save all the active access specs except the idle spec.
	for ( i = 1; i < access_count; i++ )
	{
		if ( !spec_active[i] )
			continue;

		spec = Get( i );

		outfile << "'Access specification name,default assignment" << endl;
		outfile << spec->name << "," << spec->default_assignment << endl;

		// Write access specifications to a file, data comma separated.
		outfile << "'size,% of size,% reads,% random,delay,burst,align,reply" << endl;

		for ( int line_index = 0; line_index < MAX_ACCESS_SPECS; line_index++ )
		{
			if ( spec->access[line_index].of_size == IOERROR )
				break;
			outfile
				<< spec->access[line_index].size << ","
				<< spec->access[line_index].of_size << ","
				<< spec->access[line_index].reads << ","
				<< spec->access[line_index].random << ","
				<< spec->access[line_index].delay << ","
				<< spec->access[line_index].burst << ","
				<< spec->access[line_index].align << ","
				<< spec->access[line_index].reply << endl;
		}
	}

	outfile << "'End access specifications" << endl;

	delete spec_active;

	return TRUE;
}
Esempio n. 27
0
//
// Displays the connection rate settings for the current selection in the
// worker view.  If the selection is a manager or all managers, displays
// a value if all the children's values are the same.
//
void CPageDisk::ShowConnectionRate()
{
	Manager	*manager;
	Worker	*worker;
	int trans_per_conn=0;
	int test_connection_rate=0;

	switch ( theApp.pView->m_pWorkerView->GetSelectedType() )
	{
	case WORKER:
		// update controls with worker's data
		worker = theApp.pView->m_pWorkerView->GetSelectedWorker();
		if ( IsType( worker->Type(), GenericDiskType ) )
		{
			trans_per_conn = worker->GetTransPerConn( GenericDiskType );
			test_connection_rate = worker->GetConnectionRate( GenericDiskType );
		}
		break;
	case MANAGER:
		manager = theApp.pView->m_pWorkerView->GetSelectedManager();
		trans_per_conn = 
			manager->GetTransPerConn( GenericDiskType );
		test_connection_rate = 
			manager->GetConnectionRate( GenericDiskType );
		break;
	default:
		trans_per_conn = 
			theApp.manager_list.GetTransPerConn( GenericDiskType );
		test_connection_rate = 
			theApp.manager_list.GetConnectionRate( GenericDiskType );
		break;
	}
	// If the test connection rate settings are different between a manager's
	// workers, set the state of the check box to AUTO3STATE and disable the
	// edit box and spin control.
	SetDlgItemInt( EConnectionRate, trans_per_conn );
	if ( test_connection_rate == AMBIGUOUS_VALUE )
	{
		m_CConnectionRate.SetButtonStyle( BS_AUTO3STATE );
		m_EConnectionRate.SetPasswordChar( 32 );
		m_EConnectionRate.Invalidate( TRUE );

		// Set check box to undetermined state.
		CheckDlgButton( CConnectionRate, 2 );
	}
	else
	{
		m_CConnectionRate.SetButtonStyle( BS_AUTOCHECKBOX );
		CheckDlgButton( CConnectionRate, test_connection_rate );

		if ( test_connection_rate == ENABLED_VALUE && trans_per_conn != 
			AMBIGUOUS_VALUE )
		{
			m_EConnectionRate.SetPasswordChar( 0 );
		}
		else
		{
			m_EConnectionRate.SetPasswordChar( 32 );
			m_EConnectionRate.Invalidate();
		}
	}
}
Esempio n. 28
0
int
ACE_TMAIN(int argc, ACE_TCHAR *argv[])
{
    try
    {
        CORBA::ORB_var orb =
            CORBA::ORB_init (argc, argv);

        CORBA::Object_var poa_object =
            orb->resolve_initial_references("RootPOA");

        PortableServer::POA_var root_poa =
            PortableServer::POA::_narrow (poa_object.in ());

        if (CORBA::is_nil (root_poa.in ()))
            ACE_ERROR_RETURN ((LM_ERROR,
                               " (%P|%t) Panic: nil RootPOA\n"),
                              1);

        PortableServer::POAManager_var poa_manager = root_poa->the_POAManager ();

        if (parse_args (argc, argv) != 0)
            return 1;

        TestServer *test_impl = 0;
        ACE_NEW_RETURN (test_impl,
                        TestServer (),
                        1);
        PortableServer::ServantBase_var owner_transfer(test_impl);

        PortableServer::ObjectId_var id =
            root_poa->activate_object (test_impl);

        CORBA::Object_var object = root_poa->id_to_reference (id.in ());

        Test::TestServer_var test = Test::TestServer::_narrow (object.in ());

        CORBA::String_var ior = orb->object_to_string (test.in ());

        // Output the IOR to the <ior_output_file>
        FILE *output_file= ACE_OS::fopen (ior_output_file, "w");
        if (output_file == 0)
            ACE_ERROR_RETURN ((LM_ERROR,
                               "Cannot open output file for writing IOR: %s\n",
                               ior_output_file),
                              1);
        ACE_OS::fprintf (output_file, "%s", ior.in ());
        ACE_OS::fclose (output_file);

        poa_manager->activate ();

        // Run a CORBA worker thread
        Worker work (orb.in());
        work.activate (THR_NEW_LWP | THR_JOINABLE | THR_INHERIT_SCHED, 1);
        ACE_DEBUG ((LM_DEBUG, "(%P|%t) server - waiting for client to call\n"));
        ACE_OS::sleep (10);
        if (test_impl->got_callback() == false) {
            ACE_DEBUG ((LM_DEBUG, "(%P|%t) server - client did not make call\n"));
            return 1;
        }

        ACE_DEBUG ((LM_DEBUG, "(%P|%t) server - making repeated calls to client\n"));
        for (int i = 0; i < 10; i++)
        {
            ACE_DEBUG ((LM_DEBUG, "(%P|%t) server - calling client attempt %d\n", i));
            test_impl->make_callback();
        }

        ACE_DEBUG ((LM_DEBUG, "(%P|%t) server - stopping client\n"));
        test_impl->shutdown_client();

        ACE_DEBUG ((LM_DEBUG, "(%P|%t) server - test completed\n"));

        orb->shutdown (); // shutdown our ORB

        work.wait (); // wait for the worker to finish

        root_poa->destroy (1, 1);

        orb->destroy ();
    }
    catch (const CORBA::Exception& ex)
    {
        ex._tao_print_exception ("Exception caught:");
        return 1;
    }

    return 0;
}
Esempio n. 29
0
int main()
{
	Worker w;
	int dataThree = w.doubleValue();
	cout<<dataThree<<endl;
}
Esempio n. 30
0
void CPageNetwork::StoreTargetSelection()
{
	HTREEITEM hmgr, hifc;
	Manager *manager;
	Worker *worker;
	Target_Spec new_target;
	int local_interface_no;
	int interface_no;
	int target_count = 0;
	int expected_worker = 0;

	// Make sure we have a selected manager (or worker).
	manager = theApp.pView->m_pWorkerView->GetSelectedManager();
	if (!manager) {
		ErrorMessage("Unexpectedly found no selected manager in " "CPageNetwork::StoreTargetSelection.");
		return;
	}
	// Count the number of assigned targets.
	for (hmgr = m_TTargets.GetRootItem(); hmgr; hmgr = m_TTargets.GetNextSiblingItem(hmgr)) {
		for (hifc = m_TTargets.GetChildItem(hmgr); hifc; hifc = m_TTargets.GetNextSiblingItem(hifc)) {
			if (GetSelectionCheck(hifc) == TargetChecked)
				target_count++;
		}
	}

	// Make sure we are not assigning more targets than we have workers.
	if (target_count > manager->WorkerCount(GenericServerType)) {
		ErrorMessage("You do not have enough network workers to assign all " "the selected targets.");
		// Restore the last selection.
		ShowTargetSelection();
		// Set the focus to the target list.
		::SetFocus(m_TTargets);
		return;
	}
	// The selection will succeed.  Remove current network clients.
	if (worker = theApp.pView->m_pWorkerView->GetSelectedWorker())
		worker->RemoveTargets(GenericNetType);
	else
		manager->RemoveTargets(GenericNetType);

	// Get the assigned local interface to use for the connection.
	local_interface_no = m_DInterface.GetCurSel();

	// Assign the targets.
	// Loop through all managers.
	for (hmgr = m_TTargets.GetRootItem(); hmgr; hmgr = m_TTargets.GetNextSiblingItem(hmgr)) {
		// Loop through all interfaces of a manager.
		interface_no = 0;
		for (hifc = m_TTargets.GetChildItem(hmgr); hifc; hifc = m_TTargets.GetNextSiblingItem(hifc)) {
			if (GetSelectionCheck(hifc) == TargetChecked) {
				// Are we dealing with a worker or a manager?
				if (!worker) {
					// A manager is selected.  Get the next available 
					// network server worker.
					worker = manager->GetWorker(expected_worker++, GenericServerType);

				}
				// Get the interface of the selected target from the manager
				// whose interface is selected.
				memcpy(&new_target,
				       ((Manager *) m_TTargets.GetItemData(hmgr))->GetInterface(interface_no,
												GenericNetType),
				       sizeof(Target_Spec));

				// Set the local and remote addresses of the connection.
				// The remote address used by the server is stored as the local
				// address for some manager's interface.
				if (IsType(new_target.type, TCPClientType)) {
					strcpy(new_target.tcp_info.remote_address, new_target.name);

					// Verify that the locally assigned interface matches the
					// selected target's interface.
					if (local_interface_no >= manager->InterfaceCount(GenericTCPType)) {
						// Use the first TCP interface.
						local_interface_no = 0;
						m_DInterface.SetCurSel(local_interface_no);
					}
				} else if (IsType(new_target.type, VIClientType)) {
					strcpy(new_target.vi_info.remote_nic_name, new_target.name);
					memcpy(&new_target.vi_info.remote_address,
					       &new_target.vi_info.local_address, VI_ADDRESS_SIZE);

					// Verify that the locally assigned interface matches the
					// selected target's interface.
					if (local_interface_no <= manager->InterfaceCount(GenericTCPType)) {
						// Use the first VI interface.
						local_interface_no = manager->InterfaceCount(GenericTCPType);
						m_DInterface.SetCurSel(local_interface_no);
					}
				} else {
					ErrorMessage("Invalid target type for new target in "
						     "CPageNetwork::StoreTargetSelection().");
				}
				worker->AddTarget(&new_target);

				// Record information about what local interface the server
				// should use.
				worker->SetLocalNetworkInterface(local_interface_no);

				// Create the corresponding network client.
				worker->CreateNetClient((Manager *)
							m_TTargets.GetItemData(hmgr), new_target.type);

				// Clear the worker pointer so that the next iteration
				// through the loop (for a manager with multiple selected
				// interfaces) will get the next available network server.
				worker = NULL;
			}
			interface_no++;
		}
	}
}