void EventTest::testEventIds() { ASSERT(getEvent1()->getEventId() != getEvent2()->getEventId()); ASSERT(getEvent1()->getEventId() != getEvent3()->getEventId()); ASSERT(getEvent1()->getEventId() != getEvent4()->getEventId()); ASSERT(getEvent2()->getEventId() != getEvent3()->getEventId()); ASSERT(getEvent2()->getEventId() != getEvent4()->getEventId()); ASSERT(getEvent3()->getEventId() != getEvent4()->getEventId()); }
void NegativeEventMessageTest::setUp(){ KernelMessageTest::setUp(); DeserializerManager::instance()->registerDeserializer( UnitTestEvent::getUnitTestEventType(), &UnitTestEvent::deserialize ); vector<const NegativeEvent*> events; Event *eve3 = getEvent3(); NegativeEvent *neg = new NegativeEvent(eve3->getSendTime(), eve3->getReceiveTime(), eve3->getSender(), eve3->getReceiver(), eve3->getEventId()); events.push_back( neg ); string gvtInfo = "Some Info"; testMessage = new NegativeEventMessage( KernelMessageTest::getDefaultSender(), KernelMessageTest::getDefaultReceiver(), events, gvtInfo ); }