package won.bot.integrationtest;
import org.apache.jena.query.*;
import org.apache.jena.rdf.model.RDFNode;
import org.apache.jena.vocabulary.RDFS;
import org.junit.AfterClass;
import org.junit.Assert;
import org.junit.Before;
import org.junit.Test;
import org.junit.runner.RunWith;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import org.springframework.beans.factory.annotation.Autowired;
import org.springframework.beans.factory.config.AutowireCapableBeanFactory;
import org.springframework.context.ApplicationContext;
import org.springframework.scheduling.support.PeriodicTrigger;
import org.springframework.test.context.ContextConfiguration;
import org.springframework.test.context.junit4.SpringJUnit4ClassRunner;
import won.bot.PropertyPathConfigurator;
import won.bot.framework.bot.context.ParticipantCoordinatorBotContextWrapper;
import won.bot.framework.eventbot.event.impl.lifecycle.WorkDoneEvent;
import won.bot.framework.eventbot.listener.impl.ActionOnEventListener;
import won.bot.framework.manager.impl.SpringAwareBotManagerImpl;
import won.bot.impl.BAAtomicPCActiveNotCompletingBot;
import won.protocol.util.RdfUtils;
import won.protocol.util.linkeddata.CachingLinkedDataSource;
import won.protocol.util.linkeddata.LinkedDataSource;
import won.protocol.vocabulary.WON;
import java.net.URI;
import java.util.ArrayList;
import java.util.List;
import java.util.concurrent.BrokenBarrierException;
import java.util.concurrent.CyclicBarrier;
import java.util.concurrent.TimeUnit;
import static junit.framework.TestCase.assertTrue;
/**
* User: Danijel
* Date: 16.4.14.
*/
@RunWith(SpringJUnit4ClassRunner.class)
@ContextConfiguration(locations = {"classpath:/spring/app/baAtomicPCActiveNotCompletingTest.xml"})
public class BAAtomicPCActiveNotCompletingBotTest
{
private final Logger logger = LoggerFactory.getLogger(getClass());
private static final int RUN_ONCE = 1;
private static final long ACT_LOOP_TIMEOUT_MILLIS = 100;
private static final long ACT_LOOP_INITIAL_DELAY_MILLIS = 100;
private static MyBot bot;
@Autowired
ApplicationContext applicationContext;
@Autowired
SpringAwareBotManagerImpl botManager;
private static SpringAwareBotManagerImpl staticBotManager;
private static boolean run = false;
@Before
public void before(){
if (!run)
{
//create a bot instance and auto-wire it
AutowireCapableBeanFactory beanFactory = applicationContext.getAutowireCapableBeanFactory();
bot = (MyBot) beanFactory.autowire(MyBot.class, AutowireCapableBeanFactory.AUTOWIRE_BY_TYPE, false);
Object botBean = beanFactory.initializeBean(bot, "mybot");
bot = (MyBot) botBean;
//the bot also needs a trigger so its act() method is called regularly.
// (there is no trigger bean in the context)
PeriodicTrigger trigger = new PeriodicTrigger(ACT_LOOP_TIMEOUT_MILLIS, TimeUnit.MILLISECONDS);
trigger.setInitialDelay(ACT_LOOP_INITIAL_DELAY_MILLIS);
bot.setTrigger(trigger);
logger.info("starting test case testBAAtomicPCActiveNotCompletingBot");
//adding the bot to the bot manager will cause it to be initialized.
//at that point, the trigger starts.
botManager.setShutdownApplicationContextIfWorkDone(false);
botManager.addBot(bot);
staticBotManager = botManager;
//the bot should now be running. We have to wait for it to finish before we
//can check the results:
//Together with the barrier.await() in the bot's listener, this trips the barrier
//and both threads continue.
try {
bot.getBarrier().await();
} catch (InterruptedException e) {
e.printStackTrace(); //To change body of catch statement use File | Settings | File Templates.
} catch (BrokenBarrierException e) {
e.printStackTrace(); //To change body of catch statement use File | Settings | File Templates.
}
run = true;
}
}
@AfterClass
public static void shutdown(){
//staticBotManager.setShutdownApplicationContextIfWorkDone(true);
}
/**
* The main test method.
* @throws Exception
*/
@Test
public void testBAAtomicPCActiveNotCompletingBot() throws Exception
{
//now check the results!
logger.info("start test case testBAAtomicPCActiveNotCompletingBot");
bot.executeAsserts();
logger.info("finishing test case testBAAtomicPCActiveNotCompletingBot");
}
@Test
public void testBAAtomicPCActiveNotCompletingRDF(){
logger.info("starting test case testBAAtomicPCActiveNotCompletingRDF");
bot.executeRDFValidationAssert();
logger.info("finishing test case testBAAtomicPCActiveNotCompletingRDF");
}
@Test
public void testBAAtomicPCActiveNotCompletingBAStateRDF(){
logger.info("starting test case testBAAtomicPCActiveNotCompletingBAStateRDF");
bot.executeBAStateRDFValidationAssert();
logger.info("finishing test case testBAAtomicPCActiveNotCompletingBAStateRDF");
}
/**
* We create a subclass of the bot we want to test here so that we can
* add a listener to its internal event bus and to access its listeners, which
* record information during the run that we later check with asserts.
*/
public static class MyBot extends BAAtomicPCActiveNotCompletingBot
{
/**
* Used for synchronization with the @TestD method: it should wait at the
* barrier until our bot is done, then execute the asserts.
*/
CyclicBarrier barrier = new CyclicBarrier(2);
private static final String sparqlPrefix =
"PREFIX rdfs: <http://www.w3.org/2000/01/rdf-schema#>"+
"PREFIX geo: <http://www.w3.org/2003/01/geo/wgs84_pos#>"+
"PREFIX xsd: <http://www.w3.org/2001/XMLSchema#>"+
"PREFIX rdf: <http://www.w3.org/1999/02/22-rdf-syntax-ns#>"+
"PREFIX won: <http://purl.org/webofneeds/model#>"+
"PREFIX wontx: <http://purl.org/webofneeds/tx/model#>"+
"PREFIX gr: <http://purl.org/goodrelations/v1#>"+
"PREFIX sioc: <http://rdfs.org/sioc/ns#>"+
"PREFIX ldp: <http://www.w3.org/ns/ldp#>";
/**
* Default constructor is required for instantiation through Spring.
*/
public MyBot(){
}
@Override
protected void initializeEventListeners()
{
//of course, let the real bot implementation initialize itself
super.initializeEventListeners();
//now, add a listener to the WorkDoneEvent.
//its only purpose is to trip the CyclicBarrier instance that
// the test method is waiting on
getEventBus().subscribe(WorkDoneEvent.class,
new ActionOnEventListener(
getEventListenerContext(),
new TripBarrierAction(getEventListenerContext(), barrier)));
}
public CyclicBarrier getBarrier()
{
return barrier;
}
/**
* Here we check the results of the bot's execution.
*/
public void executeAsserts()
{
//Coordinator creator
Assert.assertEquals(1, this.coordinatorNeedCreator.getEventCount());
Assert.assertEquals(0, this.coordinatorNeedCreator.getExceptionCount());
//28 Participants creator
Assert.assertEquals(noOfNeeds-1, this.participantNeedCreator.getEventCount());
Assert.assertEquals(0, this.participantNeedCreator.getExceptionCount());
//Coordinator - Participants connector
Assert.assertEquals(noOfNeeds, this.needConnector.getEventCount());
Assert.assertEquals(0, this.needConnector.getExceptionCount());
Assert.assertEquals(noOfNeeds-1, this.scriptsDoneListener.getEventCount());
Assert.assertEquals(0, this.scriptsDoneListener.getExceptionCount());
//29 needs deactivated
Assert.assertEquals(noOfNeeds-1, this.workDoneSignaller.getEventCount());
Assert.assertEquals(0, this.workDoneSignaller.getExceptionCount());
//TODO: there is more to check:
//* what does the RDF look like?
// --> pull it from the needURI/ConnectionURI and check contents
//* what does the database look like?
}
public void executeRDFValidationAssert(){
List<URI> needs = ((ParticipantCoordinatorBotContextWrapper) getBotContextWrapper()).getCoordinators();
LinkedDataSource linkedDataSource = getEventListenerContext().getLinkedDataSource();
if (linkedDataSource instanceof CachingLinkedDataSource) {
((CachingLinkedDataSource)linkedDataSource).clear();
}
List<URI> properties = new ArrayList<>();
List<URI> objects = new ArrayList<>();
properties.add(URI.create(WON.HAS_CONNECTIONS.getURI()));
//properties.add(RDF.type);
properties.add(URI.create(WON.HAS_REMOTE_CONNECTION.toString()));
properties.add(URI.create(WON.HAS_REMOTE_NEED.toString()));
properties.add(URI.create(RDFS.member.toString()));
List<URI> crawled = new ArrayList<>();
Dataset dataModel = linkedDataSource.getDataForResourceWithPropertyPath(needs.get(0),
PropertyPathConfigurator
.configurePropertyPaths
(), 300, 4, true);
logger.debug("crawled dataset: {}", RdfUtils.toString(dataModel));
String queryString = sparqlPrefix +
"SELECT ?need ?connection ?need2 WHERE {" +
"?need won:hasConnections ?connections."+
"?connections rdfs:member ?connection."+
"?connection won:hasFacet won:BAAtomicPCCoordinatorFacet."+
"?connection won:hasRemoteFacet won:BAPCParticipantFacet."+
"?connection won:hasRemoteConnection ?connection2."+
"?connection2 won:belongsToNeed ?need2."+
"?connection2 won:hasFacet won:BAPCParticipantFacet. "+
"}";
Query query = QueryFactory.create(queryString);
QueryExecution qExec = QueryExecutionFactory.create(query, dataModel);
ResultSet results = qExec.execSelect();
List<String> actualList = new ArrayList<>();
for (; results.hasNext(); ) {
QuerySolution soln = results.nextSolution();
actualList.add(soln.toString());
RDFNode node = soln.get("?connection");
}
assertTrue("wrong number of results", actualList.size() >= 1);
Assert.assertEquals(noOfNeeds - 1, actualList.size());
qExec.close();
}
public void executeBAStateRDFValidationAssert(){
List<URI> needs = ((ParticipantCoordinatorBotContextWrapper) getBotContextWrapper()).getCoordinators();
LinkedDataSource linkedDataSource = getEventListenerContext().getLinkedDataSource();
if (linkedDataSource instanceof CachingLinkedDataSource) {
((CachingLinkedDataSource)linkedDataSource).clear();
}
List<URI> properties = new ArrayList<>();
List<URI> objects = new ArrayList<>();
properties.add(URI.create(WON.HAS_CONNECTIONS.getURI()));
//properties.add(RDF.type);
properties.add(URI.create(WON.HAS_REMOTE_CONNECTION.toString()));
properties.add(URI.create(WON.HAS_REMOTE_NEED.toString()));
properties.add(URI.create(RDFS.member.toString()));
List<URI> crawled = new ArrayList<>();
Dataset dataModel = linkedDataSource.getDataForResourceWithPropertyPath(needs.get(0),
PropertyPathConfigurator
.configurePropertyPaths
(), 300, 4, true);
logger.debug("crawled dataset: {}", RdfUtils.toString(dataModel));
String queryString = sparqlPrefix +
"SELECT ?need ?connection ?need2 WHERE {" +
"?need won:hasConnections ?connections."+
"?connections rdfs:member ?connection."+
"?connection won:hasFacet won:BAAtomicPCCoordinatorFacet."+
"?connection wontx:hasBAState wontx:Ended."+
"?connection won:hasRemoteConnection ?connection2."+
"?connection2 won:belongsToNeed ?need2."+
"?connection2 won:hasFacet won:BAPCParticipantFacet. "+
"?connection2 wontx:hasBAState wontx:Ended."+
"}";
Query query = QueryFactory.create(queryString);
QueryExecution qExec = QueryExecutionFactory.create(query, dataModel);
ResultSet results = qExec.execSelect();
List<String> actualList = new ArrayList<>();
for (; results.hasNext(); ) {
QuerySolution soln = results.nextSolution();
actualList.add(soln.toString());
RDFNode node = soln.get("?connection");
}
assertTrue("wrong number of results", actualList.size() >= 1);
Assert.assertEquals(noOfNeeds-1, actualList.size());
qExec.close();
}
}
}