Examples with ActEvent won.bot.framework.eventbot.event.impl.lifecycle.ActEvent used on opensource projects

Example 1 with ActEvent

use of won.bot.framework.eventbot.event.impl.lifecycle.ActEvent in project webofneeds by researchstudio-sat.

the class DebugBot method initializeEventListeners.

@Override
protected void initializeEventListeners() {
    String welcomeMessage = "Greetings! \nI am the DebugBot. I " + "can simulate multiple other users so you can test things. I understand a few commands. \nTo see which ones, " + "type 'usage'.";
    String welcomeHelpMessage = "When connecting with me, you can say 'ignore', or 'deny' to make me ignore or deny requests, and 'wait N' to make me wait N seconds (max 99) before reacting.";
    EventListenerContext ctx = getEventListenerContext();
    EventBus bus = getEventBus();
    // eagerly cache RDF data
    BotBehaviour eagerlyCacheBehaviour = new EagerlyPopulateCacheBehaviour(ctx);
    eagerlyCacheBehaviour.activate();
    // react to a bot command activating/deactivating eager caching
    bus.subscribe(SetCacheEagernessCommandEvent.class, new ActionOnEventListener(ctx, new BaseEventBotAction(ctx) {

        @Override
        protected void doRun(Event event, EventListener executingListener) throws Exception {
            if (event instanceof SetCacheEagernessCommandEvent) {
                if (((SetCacheEagernessCommandEvent) event).isEager()) {
                    eagerlyCacheBehaviour.activate();
                } else {
                    eagerlyCacheBehaviour.deactivate();
                }
            }
        }
    }));
    // react to a message that was not identified as a debug command
    BotBehaviour connectionMessageBehaviour = new ConnectionMessageBehaviour(ctx);
    connectionMessageBehaviour.activate();
    // react to the debug deactivate command (deactivate my need)
    BotBehaviour deactivateNeedBehaviour = new DeactivateNeedBehaviour(ctx);
    deactivateNeedBehaviour.activate();
    // react to the close behaviour
    BotBehaviour closeBehaviour = new CloseBevahiour(ctx);
    closeBehaviour.activate();
    // register with WoN nodes, be notified when new needs are created
    RegisterMatcherAction registerMatcherAction = new RegisterMatcherAction(ctx);
    this.matcherRegistrator = new ActionOnEventListener(ctx, registerMatcherAction, 1);
    bus.subscribe(ActEvent.class, this.matcherRegistrator);
    RandomDelayedAction delayedRegistration = new RandomDelayedAction(ctx, registrationMatcherRetryInterval, registrationMatcherRetryInterval, 0, registerMatcherAction);
    ActionOnEventListener matcherRetryRegistrator = new ActionOnEventListener(ctx, delayedRegistration);
    bus.subscribe(MatcherRegisterFailedEvent.class, matcherRetryRegistrator);
    // create the echo need for debug initial connect - if we're not reacting to the creation of our own echo need.
    CreateDebugNeedWithFacetsAction needForInitialConnectAction = new CreateDebugNeedWithFacetsAction(ctx, true, true);
    needForInitialConnectAction.setIsInitialForConnect(true);
    ActionOnEventListener initialConnector = new ActionOnEventListener(ctx, new NotFilter(new NeedUriInNamedListFilter(ctx, ctx.getBotContextWrapper().getNeedCreateListName())), needForInitialConnectAction);
    bus.subscribe(NeedCreatedEventForMatcher.class, initialConnector);
    // create the echo need for debug initial hint - if we're not reacting to the creation of our own echo need.
    CreateDebugNeedWithFacetsAction initialHinter = new CreateDebugNeedWithFacetsAction(ctx, true, true);
    initialHinter.setIsInitialForHint(true);
    ActionOnEventListener needForInitialHintListener = new ActionOnEventListener(ctx, new NotFilter(new NeedUriInNamedListFilter(ctx, ctx.getBotContextWrapper().getNeedCreateListName())), initialHinter);
    bus.subscribe(NeedCreatedEventForMatcher.class, needForInitialHintListener);
    // as soon as the echo need triggered by debug connect created, connect to original
    this.needConnector = new ActionOnEventListener(ctx, "needConnector", new RandomDelayedAction(ctx, CONNECT_DELAY_MILLIS, CONNECT_DELAY_MILLIS, 1, new ConnectWithAssociatedNeedAction(ctx, FacetType.OwnerFacet.getURI(), FacetType.OwnerFacet.getURI(), welcomeMessage + " " + welcomeHelpMessage)));
    bus.subscribe(NeedCreatedEventForDebugConnect.class, this.needConnector);
    // as soon as the echo need triggered by debug hint command created, hint to original
    this.needHinter = new ActionOnEventListener(ctx, "needHinter", new RandomDelayedAction(ctx, CONNECT_DELAY_MILLIS, CONNECT_DELAY_MILLIS, 1, new HintAssociatedNeedAction(ctx, FacetType.OwnerFacet.getURI(), FacetType.OwnerFacet.getURI(), matcherUri)));
    bus.subscribe(NeedCreatedEventForDebugHint.class, this.needHinter);
    // if the original need wants to connect - always open
    this.autoOpener = new ActionOnEventListener(ctx, new MultipleActions(ctx, new OpenConnectionDebugAction(ctx, welcomeMessage, welcomeHelpMessage), new PublishSetChattinessEventAction(ctx, true)));
    bus.subscribe(ConnectFromOtherNeedEvent.class, this.autoOpener);
    EventBotAction userCommandAction = new DebugBotIncomingMessageToEventMappingAction(ctx);
    // if the remote side opens, send a greeting and set to chatty.
    bus.subscribe(OpenFromOtherNeedEvent.class, new ActionOnEventListener(ctx, new MultipleActions(ctx, userCommandAction, new PublishSetChattinessEventAction(ctx, true))));
    // if the bot receives a text message - try to map the command of the text message to a DebugEvent
    messageFromOtherNeedListener = new ActionOnEventListener(ctx, userCommandAction);
    bus.subscribe(MessageFromOtherNeedEvent.class, messageFromOtherNeedListener);
    // react to usage command event
    this.usageMessageSender = new ActionOnEventListener(ctx, new SendMultipleMessagesAction(ctx, DebugBotIncomingMessageToEventMappingAction.USAGE_MESSAGES));
    bus.subscribe(UsageDebugCommandEvent.class, usageMessageSender);
    bus.subscribe(CloseCommandSuccessEvent.class, new ActionOnEventListener(ctx, "chattiness off", new PublishSetChattinessEventAction(ctx, false)));
    // react to close event: set connection to not chatty
    bus.subscribe(CloseFromOtherNeedEvent.class, new ActionOnEventListener(ctx, new PublishSetChattinessEventAction(ctx, false)));
    // react to the hint and connect commands by creating a need (it will fire correct need created for connect/hint
    // events)
    needCreator = new ActionOnEventListener(ctx, new CreateDebugNeedWithFacetsAction(ctx, true, true));
    bus.subscribe(HintDebugCommandEvent.class, needCreator);
    bus.subscribe(ConnectDebugCommandEvent.class, needCreator);
    bus.subscribe(SendNDebugCommandEvent.class, new ActionOnEventListener(ctx, new SendNDebugMessagesAction(ctx, DELAY_BETWEEN_N_MESSAGES, DebugBotIncomingMessageToEventMappingAction.N_MESSAGES)));
    MessageTimingManager timingManager = new MessageTimingManager(ctx, 20);
    // on every actEvent there is a chance we send a chatty message
    bus.subscribe(ActEvent.class, new ActionOnEventListener(ctx, new SendChattyMessageAction(ctx, CHATTY_MESSAGE_PROBABILITY, timingManager, DebugBotIncomingMessageToEventMappingAction.RANDOM_MESSAGES, DebugBotIncomingMessageToEventMappingAction.LAST_MESSAGES)));
    // set the chattiness of the connection
    bus.subscribe(SetChattinessDebugCommandEvent.class, new ActionOnEventListener(ctx, new SetChattinessAction(ctx)));
    // process eliza messages with eliza
    bus.subscribe(MessageToElizaEvent.class, new ActionOnEventListener(ctx, new AnswerWithElizaAction(ctx, 20)));
    // remember when we sent the last message
    bus.subscribe(WonMessageSentOnConnectionEvent.class, new ActionOnEventListener(ctx, new RecordMessageSentTimeAction(ctx, timingManager)));
    // remember when we got the last message
    bus.subscribe(WonMessageReceivedOnConnectionEvent.class, new ActionOnEventListener(ctx, new RecordMessageReceivedTimeAction(ctx, timingManager)));
    // initialize the sent timestamp when the open message is received
    bus.subscribe(OpenFromOtherNeedEvent.class, new ActionOnEventListener(ctx, new RecordMessageSentTimeAction(ctx, timingManager)));
    // initialize the sent timestamp when the connect message is received
    bus.subscribe(ConnectFromOtherNeedEvent.class, new ActionOnEventListener(ctx, new RecordMessageSentTimeAction(ctx, timingManager)));
}

Example 2 with ActEvent

use of won.bot.framework.eventbot.event.impl.lifecycle.ActEvent in project webofneeds by researchstudio-sat.

the class RandomSimulatorBot method initializeEventListeners.

@Override
protected void initializeEventListeners() {
    final EventListenerContext ctx = getEventListenerContext();
    EventBus bus = getEventBus();
    final Counter needCreationSuccessfulCounter = new CounterImpl("needsCreated");
    final Counter needCreationFailedCounter = new CounterImpl("needCreationFailed");
    final Counter needCreationStartedCounter = new CounterImpl("creationStarted");
    final Counter creationUnfinishedCounter = new CounterImpl("creationUnfinished");
    // create the first need when the first actEvent happens
    this.groupMemberCreator = new ActionOnceAfterNEventsListener(ctx, "groupMemberCreator", 1, new MultipleActions(ctx, new IncrementCounterAction(ctx, needCreationStartedCounter), new IncrementCounterAction(ctx, creationUnfinishedCounter), new CreateNeedWithFacetsAction(ctx, getBotContextWrapper().getNeedCreateListName())));
    bus.subscribe(ActEvent.class, this.groupMemberCreator);
    // when a need is created (or it failed), decrement the creationUnfinishedCounter
    EventListener downCounter = new ActionOnEventListener(ctx, "downCounter", new DecrementCounterAction(ctx, creationUnfinishedCounter));
    // count a successful need creation
    bus.subscribe(NeedCreatedEvent.class, downCounter);
    // if a creation failed, we don't want to keep us from keeping the correct count
    bus.subscribe(NeedCreationFailedEvent.class, downCounter);
    // we count the one execution when the creator realizes that the producer is exhausted, we have to count down
    // once for that, too.
    bus.subscribe(NeedProducerExhaustedEvent.class, downCounter);
    // also, keep track of what worked and what didn't
    bus.subscribe(NeedCreationFailedEvent.class, new ActionOnEventListener(ctx, new IncrementCounterAction(ctx, needCreationFailedCounter)));
    bus.subscribe(NeedCreatedEvent.class, new ActionOnEventListener(ctx, new IncrementCounterAction(ctx, needCreationSuccessfulCounter)));
    // print a logging message every N needs
    bus.subscribe(NeedCreatedEvent.class, new ActionOnEventListener(ctx, "logger", new BaseEventBotAction(ctx) {

        int lastOutput = 0;

        @Override
        protected void doRun(final Event event, EventListener executingListener) throws Exception {
            int cnt = needCreationStartedCounter.getCount();
            int unfinishedCount = creationUnfinishedCounter.getCount();
            int successCnt = needCreationSuccessfulCounter.getCount();
            int failedCnt = needCreationFailedCounter.getCount();
            if (cnt - lastOutput >= 200) {
                logger.info("started creation of {} needs, creation not yet finished for {}. Successful: {}, failed: {}", new Object[] { cnt, unfinishedCount, successCnt, failedCnt });
                lastOutput = cnt;
            }
        }
    }));
    // each time a need was created, wait for a random interval, then create another one
    bus.subscribe(NeedCreatedEvent.class, new ActionOnEventListener(ctx, new RandomDelayedAction(ctx, MIN_NEXT_CREATION_TIMEOUT_MILLIS, MAX_NEXT_CREATION_TIMEOUT_MILLIS, this.hashCode(), new CreateNeedWithFacetsAction(ctx, getBotContextWrapper().getNeedCreateListName()))));
    // when a hint is received, connect fraction of the cases after a random timeout
    bus.subscribe(HintFromMatcherEvent.class, new ActionOnEventListener(ctx, "hint-reactor", new RandomDelayedAction(ctx, MIN_RECATION_TIMEOUT_MILLIS, MAX_REACTION_TIMEOUT_MILLIS, (long) this.hashCode(), new MultipleActions(ctx, new SendFeedbackForHintAction(ctx), new ProbabilisticSelectionAction(ctx, PROB_OPEN_ON_HINT, (long) this.hashCode(), new OpenConnectionAction(ctx, "Hi!"), new CloseConnectionAction(ctx, "Bye!"))))));
    // when an open or connect is received, send message or close randomly after a random timeout
    EventListener opener = new ActionOnEventListener(ctx, "open-reactor", new RandomDelayedAction(ctx, MIN_RECATION_TIMEOUT_MILLIS, MAX_REACTION_TIMEOUT_MILLIS, (long) this.hashCode(), new ProbabilisticSelectionAction(ctx, PROB_MESSAGE_ON_OPEN, (long) this.hashCode(), new OpenConnectionAction(ctx, "Hi!"), new CloseConnectionAction(ctx, "Bye!"))));
    bus.subscribe(OpenFromOtherNeedEvent.class, opener);
    bus.subscribe(ConnectFromOtherNeedEvent.class, opener);
    // when an open is received, send message or close randomly after a random timeout
    EventListener replyer = new ActionOnEventListener(ctx, "message-reactor", new RandomDelayedAction(ctx, MIN_RECATION_TIMEOUT_MILLIS, MAX_REACTION_TIMEOUT_MILLIS, (long) this.hashCode(), new ProbabilisticSelectionAction(ctx, PROB_MESSAGE_ON_MESSAGE, (long) this.hashCode(), new SendMessageAction(ctx), new CloseConnectionAction(ctx, "Bye!"))));
    bus.subscribe(MessageFromOtherNeedEvent.class, replyer);
    bus.subscribe(OpenFromOtherNeedEvent.class, replyer);
    // When the needproducer is exhausted, stop.
    this.workDoneSignaller = new ActionOnEventListener(ctx, "workDoneSignaller", new SignalWorkDoneAction(ctx), 1);
    bus.subscribe(NeedProducerExhaustedEvent.class, this.workDoneSignaller);
}