Examples of scala.concurrent.duration.FiniteDuration

• scala.concurrent.duration.FiniteDuration

     *
     * @param envelop envelop to send
     */
    public static void sendMail(Mail.Envelop envelop) {
        EnvelopJob envelopJob = new EnvelopJob(envelop);
        final FiniteDuration delay = Duration.create(DELAY, TimeUnit.SECONDS);
        Akka.system().scheduler().scheduleOnce(delay, envelopJob,Akka.system().dispatcher());
    }

     *
     * @param envelop envelop to send
     */
    public static void sendMail(Mail.Envelop envelop) {
        EnvelopJob envelopJob = new EnvelopJob(envelop);
        final FiniteDuration delay = Duration.create(DELAY, TimeUnit.SECONDS);
        Akka.system().scheduler().scheduleOnce(delay, envelopJob, Akka.system().dispatcher());
    }

    ActorRef monitor = system.actorOf(Props.create(Monitor.class, managerList, directorJobUuid, jobStatus), "ProgressMonitor" + directorJobUuid);

    ActorRef collector = system.actorOf(Props.create(ResponseCollector.class, jobInfo), "ResultCollector" + directorJobUuid);

    final FiniteDuration gatherResponseDuration = Duration.create(
        3600, TimeUnit.SECONDS);

    /**
     * Gather Result.
     */
    Future<Object> totResponse = Patterns.ask(collector, new gatherResponse(monitor, totJobNum), new Timeout(gatherResponseDuration));

    BatchResponseFromManager responseFromCollecter = null;
    try {
      responseFromCollecter = (BatchResponseFromManager) Await.result(totResponse, gatherResponseDuration);
      System.out.println("Gather Result Back! : " + responseFromCollecter.responseMap.size());
      /**
       * Slave Fail Over
       */
      int failCount = 3;
      while (responseFromCollecter.responseMap.size() < totJobNum && failCount >= 0) {
        System.out.println("Response less than request, fail over @@");
        failCount -- ;
        Map<String, NodeData> failOverMap = gatherFailOverData(nodeDataMapValidSafe, responseFromCollecter);

        List<Address> failOverNodeList = new ArrayList<Address>();

        int failOverTot = failOverMap.size();

        for (Address m : nodeList) {
          if (ClusterState.memberLoad.containsKey(m)) {
            failOverNodeList.add(m);
            failOverTot -= 2000;
            if (failOverTot < 0)
              break;
          }
        }


        List<ActorRef> failOverManagerList = new ArrayList<ActorRef>();
        Queue<Integer> failOverJobQ = new ConcurrentLinkedQueue<Integer>();

        if (localMode || failOverNodeList.size()==0) {
          agentCommandManager =  system.actorOf(
              Props.create(LocalManager.class),"AgentCommandManager-" + UUID.randomUUID().toString()
            );
          failOverJobQ.offer(failOverManagerList.size());
          failOverManagerList.add(agentCommandManager);
          managerList.add(agentCommandManager);
          localMode = true;
        }
        else {
          for (Address m : failOverNodeList) {
            agentCommandManager = system.actorOf(
              Props.create(LocalManager.class).withDeploy(
                  new Deploy(
                       new RemoteScope(
                          m
                          )
                      )),
              "AgentCommandManager-" + UUID.randomUUID().toString()
            );

            failOverJobQ.offer(failOverManagerList.size());
            failOverManagerList.add(agentCommandManager);
            managerList.add(agentCommandManager);
          }
        }
        if (!localMode) {
          List<Map<String, NodeData>> failOverJobGroupList = partDataStore(failOverMap, failOverNodeList.size()==0?
              failOverMap.size():Math.min(failOverMap.size()/failOverNodeList.size()+1, 1000));
          List<ActorRef> failOverDispatcherList = new ArrayList<ActorRef>();
          int failOverRequestChunckSize = failOverJobGroupList.size()/failOverManagerList.size() + 1; // Last one do less

          for (int i=0; i<Math.min(3, failOverManagerList.size()) ; i++) {
            failOverDispatcherList.add(
                system.actorOf(
                    Props.create(JobDispatcher.class, failOverManagerList, failOverJobGroupList, failOverJobQ, failOverRequestChunckSize,
                        nodeGroupType, agentCommandType, directorJobUuid, maxConcNum)
                    )
                );
          }

          for (ActorRef failOverDispatcher : failOverDispatcherList) {
            failOverDispatcher.tell("start dispatching", null);
          }
        } else {
          Map<String, NodeGroupDataMap> failOverDataStore = new HashMap<String, NodeGroupDataMap>();
          failOverDataStore.put(nodeGroupType, new NodeGroupDataMap(nodeGroupType));
          failOverDataStore.get(nodeGroupType).setNodeDataMapValid(failOverMap);
          Future<Object> ackFuture = Patterns.ask(failOverManagerList.get(0), new InitialRequestToManager(nodeGroupType,
              agentCommandType, directorJobUuid, failOverDataStore, true, false, maxConcNum), new Timeout(Duration.create(
                  15, TimeUnit.SECONDS)));
          try {
            Await.result(ackFuture,  Duration.create(
                15, TimeUnit.SECONDS));
          } catch (Exception e) {
            // TODO Auto-generated catch block
            e.printStackTrace();
          }
          failOverManagerList.get(0).tell(new endOfRequest(), null);
        }

        jobInfo.state = State.processing;


        Future<Object> futureFailOverResponse = Patterns.ask(collector, new gatherResponse(monitor, totJobNum), new Timeout(gatherResponseDuration));
        BatchResponseFromManager failOverResponse = (BatchResponseFromManager) Await.result(futureFailOverResponse, gatherResponseDuration);
        System.out.println("FailOver Result Size" + failOverResponse.responseMap.size());
        for (Entry<String, GenericAgentResponse> e : failOverResponse.responseMap.entrySet()) {
          responseFromCollecter.responseMap.put(e.getKey(), e.getValue());
        }
      }

      for (Entry<String, GenericAgentResponse> e: responseFromCollecter.getResponseMap().entrySet()) {
        AgentDataProviderHelper.getInstance()
        .updateResponseFromAgentGenericResponse(nodeGroupType,
            agentCommandType, e.getValue(), dataStore);
      }
    } catch (Exception e) {
      System.out.println("Response Collector Timeout");
      responseFromCollecter = new BatchResponseFromManager();
    }

    jobInfo.endTime = System.currentTimeMillis();
    jobInfo.aggregationTime = (jobInfo.endTime - jobInfo.finishedNotAggregatedTime)/1000.0;
    jobInfo.state = State.gathered;

    System.out.println("Clear actors.");

    system.stop(monitor);
    system.stop(collector);

    for (ActorRef m : managerList) {
      system.stop(m);
    }

    if (localMode || nodeList.size() ==0 )
      localLoad.addAndGet( -maxConcNum);

    for (Address m : nodeList) {
      if (ClusterState.memberLoad.containsKey(m))
        ClusterState.memberLoad.get(m).addAndGet(-maxConcNum);
    }

    final FiniteDuration durationLogWorker = Duration.create(
        VarUtils.TIMEOUT_ASK_LOGWORKER_SCONDS, TimeUnit.SECONDS);

    ActorRef logWorker = ActorConfig.getActorSystem().actorOf(
        Props.create(LogWorker.class,
            nodeGroupType, agentCommandType, dataStore, directorJobUuid),

  private BatchResponseFromManager streamResponse() {
    BatchResponseFromManager response = new BatchResponseFromManager();
    ActorRef manager = slaveQ.poll();
    while (manager != null) {
      FiniteDuration duration = Duration.create(
          60, TimeUnit.SECONDS);
      streamRequestToManager streamRequest = new streamRequestToManager(0);
      Future<Object> futureResponse = Patterns.ask(manager, streamRequest, new Timeout(duration));
      System.out.println(manager.path().address().toString());

    }
  }

  public void queryProgress() {
    List<Future<Object>> progressList = new ArrayList<Future<Object>>();
    final FiniteDuration duration = (FiniteDuration) Duration.create(0.5,
        TimeUnit.SECONDS);
    Map<Future<Object>, ActorRef> askMap = new HashMap<Future<Object>, ActorRef>();

    for (ActorRef manager : managerList) {
      if ((ClusterState.memberLoad.containsKey(manager.path().address()) || manager

                getSelf().tell(new collecterCheckResponse(), ActorRef.noSender());
           }
      }, getContext().system().dispatcher());

    } else if (message instanceof collecterCheckResponse){
      FiniteDuration duration = Duration.create(
          10, TimeUnit.SECONDS);
      Future<Object> futureList = Patterns.ask(monitor, new queryMonitorForResponse(), new Timeout(duration));
      try {
        List<ActorRef> collectList = (List<ActorRef>) Await.result(futureList, duration);
        if (collectList.size() > 0) {

      batchSenderAsstManager.tell(requestToBatchSenderAsstManager,
          getSelf());

      // 2013 1013 add cancel.
      final FiniteDuration timeOutDuration = Duration.create(
          VarUtils.TIMEOUT_IN_MANAGER_SCONDS, TimeUnit.SECONDS);
      /**
       * Migrate to akka 2.3.3
       */
      timeoutMessageCancellable = getContext()

        }
        getContext().stop(getSelf());
      }

      // 2013 1013 add cancel.
      final FiniteDuration timeOutDuration = Duration.create(
          VarUtils.TIMEOUT_ASK_AGGREGATION_MANAGER_SCONDS,
          TimeUnit.SECONDS);
      timeoutMessageCancellable = getContext()
          .system()
          .scheduler()

      aggregationManager = ActorConfig.getActorSystem().actorOf(
          Props.create(AggregationManager.class),
          "AggregationManager-" + UUID.randomUUID().toString()
        );

      final FiniteDuration duration = Duration.create(
          VarUtils.TIMEOUT_ASK_AGGREGATION_MANAGER_SCONDS,
          TimeUnit.SECONDS);
      Future<Object> future = Patterns.ask(aggregationManager,
          new RequestToAggregationManager(patternStr,
              directorJobUuid, aggregateData), new Timeout(

    return false;
  }

  private void startSessionCleaner(long timeoutInMilliseconds) {
    sessionCleaner = Akka.system().scheduler().schedule(
          new FiniteDuration(1000, TimeUnit.MILLISECONDS),
          new FiniteDuration(timeoutInMilliseconds, TimeUnit.MILLISECONDS),
          new SessionCleaner() ,
          Akka.system().dispatcher());
  }