void LinkedHashSetTest::testConstructor() { LinkedHashSet<int> set; CPPUNIT_ASSERT(set.isEmpty()); CPPUNIT_ASSERT_EQUAL(0, set.size()); CPPUNIT_ASSERT_EQUAL(false, set.contains(1)); }
void LinkedHashSetTest::testToArray() { LinkedHashSet<int> set; populateSet(set); std::vector<int> array = set.toArray(); CPPUNIT_ASSERT((int)array.size() == SET_SIZE); }
void LinkedHashSetTest::testIsEmpty() { LinkedHashSet<int> set; CPPUNIT_ASSERT_MESSAGE("Empty set returned true", set.isEmpty()); set.add(1); CPPUNIT_ASSERT_MESSAGE("Non-empty set returned true", !set.isEmpty()); CPPUNIT_ASSERT_MESSAGE("Empty set returned false", LinkedHashSet<std::string>().isEmpty()); }
void LinkedHashSetTest::testContains() { LinkedHashSet<int> set; populateSet(set); CPPUNIT_ASSERT_MESSAGE("Returned false for valid object", set.contains(90)); CPPUNIT_ASSERT_MESSAGE("Returned true for invalid Object", !set.contains(SET_SIZE + 1)); }
void LinkedHashSetTest::testRemove() { LinkedHashSet<int> set; populateSet(set); int size = set.size(); set.remove(98); CPPUNIT_ASSERT_MESSAGE("Failed to remove element", !set.contains(98)); CPPUNIT_ASSERT_MESSAGE("Failed to decrement set size", set.size() == size - 1); }
void LinkedHashSetTest::testSize() { LinkedHashSet<int> set; populateSet(set); CPPUNIT_ASSERT_MESSAGE("Returned incorrect size", set.size() == SET_SIZE); set.clear(); CPPUNIT_ASSERT_MESSAGE("Cleared set returned non-zero size", 0 == set.size()); }
void LinkedHashSetTest::testClear() { LinkedHashSet<int> set; populateSet(set); CPPUNIT_ASSERT(set.size() > 0); set.clear(); CPPUNIT_ASSERT(set.size() == 0); CPPUNIT_ASSERT(!set.contains(1)); }
void LinkedHashSetTest::testConstructorI() { LinkedHashSet<int> set; CPPUNIT_ASSERT_EQUAL_MESSAGE("Created incorrect LinkedHashSet", 0, set.size()); try { LinkedHashSet<int> set(-1); } catch (IllegalArgumentException& e) { return; } CPPUNIT_FAIL("Failed to throw IllegalArgumentException for capacity < 0"); }
TIMED_TEST(LinkedHashSetTests, hashcodeTest_LinkedHashSet, TEST_TIMEOUT_DEFAULT) { LinkedHashSet<int> hset; hset.add(69); hset.add(42); assertEqualsInt("hashcode of self LinkedHashSet", hashCode(hset), hashCode(hset)); LinkedHashSet<int> hset2; hset2.add(42); hset2.add(69); assertEqualsInt("hashcode of LinkedHashSet other order", hashCode(hset), hashCode(hset2)); LinkedHashSet<int> copy = hset; assertEqualsInt("hashcode of copy LinkedHashSet", hashCode(hset), hashCode(copy)); LinkedHashSet<int> empty; HashSet<LinkedHashSet<int> > hashhashset {hset, copy, hset2, empty, empty}; assertEqualsInt("hashset of LinkedHashset size", 2, hashhashset.size()); }
void LinkedHashSetTest::testCopy2() { LinkedList<int> collection; for (int i = 0; i < 50; ++i) { collection.add(i); } LinkedHashSet<int> set; set.copy(collection); CPPUNIT_ASSERT(collection.size() == set.size()); for (int i = 0; i < 50; ++i) { CPPUNIT_ASSERT(set.contains(i)); } CPPUNIT_ASSERT(set.equals(collection)); }
void OpenwireNonBlockingRedeliveryTest::testMessageDeleiveredWhenNonBlockingEnabled() { LinkedHashSet< Pointer<MessageId> > received; LinkedHashSet< Pointer<MessageId> > beforeRollback; LinkedHashSet< Pointer<MessageId> > afterRollback; const int MSG_COUNT = 100; const std::string destinationName = "testMessageDeleiveredWhenNonBlockingEnabled"; destroyDestination(getBrokerURL(), destinationName); Pointer<ActiveMQConnectionFactory> connectionFactory(new ActiveMQConnectionFactory(getBrokerURL())); Pointer<Connection> connection(connectionFactory->createConnection()); Pointer<Session> session(connection->createSession(Session::SESSION_TRANSACTED)); Pointer<Destination> destination(session->createQueue(destinationName)); Pointer<MessageConsumer> consumer(session->createConsumer(destination.get())); ReceivedListener receivedListener(&received); consumer->setMessageListener(&receivedListener); sendMessages(getBrokerURL(), destinationName, MSG_COUNT); connection->start(); CPPUNIT_ASSERT_MESSAGE("Pre-Rollack received size incorrect", assertTrue(received, MSG_COUNT)); beforeRollback.addAll(received); received.clear(); session->rollback(); CPPUNIT_ASSERT_MESSAGE("Post-Rollack received size incorrect", assertTrue(received, MSG_COUNT)); afterRollback.addAll(received); received.clear(); CPPUNIT_ASSERT_EQUAL(beforeRollback.size(), afterRollback.size()); CPPUNIT_ASSERT(beforeRollback.equals(afterRollback)); session->commit(); connection->close(); destroyDestination(getBrokerURL(), destinationName); }
void OpenwireNonBlockingRedeliveryTest::testNonBlockingMessageDeleiveryWithRollbacks() { LinkedHashSet< Pointer<MessageId> > received; const int MSG_COUNT = 100; const std::string destinationName = "testNonBlockingMessageDeleiveryWithRollbacks"; destroyDestination(getBrokerURL(), destinationName); Pointer<ActiveMQConnectionFactory> connectionFactory(new ActiveMQConnectionFactory(getBrokerURL())); connectionFactory->getRedeliveryPolicy()->setInitialRedeliveryDelay(TimeUnit::SECONDS.toMillis(10)); Pointer<Connection> connection(connectionFactory->createConnection()); Pointer<Session> session(connection->createSession(Session::SESSION_TRANSACTED)); Pointer<Destination> destination(session->createQueue(destinationName)); Pointer<MessageConsumer> consumer(session->createConsumer(destination.get())); ReceivedListener receivedListener(&received); consumer->setMessageListener(&receivedListener); sendMessages(getBrokerURL(), destinationName, MSG_COUNT); connection->start(); CPPUNIT_ASSERT_MESSAGE("Pre-Rollack received size incorrect", assertTrue(received, MSG_COUNT)); received.clear(); SomeRollbacksListener newListener(session, &received); consumer->setMessageListener(&newListener); session->rollback(); CPPUNIT_ASSERT_MESSAGE("Post-Rollack received size incorrect", assertTrue(received, MSG_COUNT)); session->commit(); connection->close(); destroyDestination(getBrokerURL(), destinationName); }
void LinkedHashSetTest::testAdd() { LinkedHashSet<int> set; populateSet(set); int size = set.size(); set.add(8); CPPUNIT_ASSERT_MESSAGE("Added element already contained by set", set.size() == size); set.add(-9); CPPUNIT_ASSERT_MESSAGE("Failed to increment set size after add", set.size() == size + 1); CPPUNIT_ASSERT_MESSAGE("Failed to add element to set", set.contains(-9)); }
void LinkedHashSetTest::testIterator() { LinkedHashSet<int> set; populateSet(set); Pointer< Iterator<int> > iter(set.iterator()); // Tests that the LinkedHashSet iterates in order of insertion. for (int j = 0; iter->hasNext(); j++) { int value = iter->next(); CPPUNIT_ASSERT_MESSAGE("Incorrect element found", value == j); } { LinkedHashSet<string> set; set.add( "fred1" ); set.add( "fred2" ); set.add( "fred3" ); Iterator<string>* iterator1 = set.iterator(); CPPUNIT_ASSERT( iterator1 != NULL ); CPPUNIT_ASSERT( iterator1->hasNext() == true ); int count = 0; while( iterator1->hasNext() ) { iterator1->next(); ++count; } CPPUNIT_ASSERT( count == set.size() ); Iterator<string>* iterator2 = set.iterator(); while( iterator2->hasNext() ) { iterator2->next(); iterator2->remove(); } CPPUNIT_ASSERT( set.isEmpty() ); delete iterator1; delete iterator2; } }
void LinkedHashSetTest::testRetainAll() { LinkedHashSet<int> set; populateSet(set, 3); ArrayList<int> collection; collection.add(1); collection.add(2); set.retainAll(collection); CPPUNIT_ASSERT_EQUAL(2, set.size()); LinkedHashSet<int> set2; set2.retainAll(collection); CPPUNIT_ASSERT_EQUAL(0, set2.size()); LinkedHashSet<int> set3; populateSet(set3, 3); collection.clear(); set3.retainAll(collection); CPPUNIT_ASSERT_EQUAL(0, set3.size()); }
/******************************************************************************* Purpose - assumes that all corners with horizontal bisectors are at the same height(?), and that all faces that need to be merged, have been. *******************************************************************************/ void HeightCollision::processHoriz(Skeleton *skel) { LinkedHashSet<Chain> chains; while (newHorizSet.size() > 0) chains.push_back(CoSitedCollision::buildChain2(newHorizSet.front(), &newHorizSet)); if (chains.size() == 0) return; /* if there are two lines of events at the same height (but different * lines), we need them to share their end points */ IndirectLinkedHashSet<Corner *> intraface; for (LinkedHashSet<Chain>::iterator chainIt = chains.begin(); chainIt != chains.end(); ++chainIt) { /* Naughty! But he does it in Java... they don't have const in Java, you * see, so things like this are unchecked. * -Tom */ Chain &chain = (Chain &) *chainIt; vector<Edge *> priority; for (vector<Corner *>::iterator cIt = chain.chain.begin(); cIt != chain.chain.end(); ++cIt) { Corner *c = *cIt; /* both edges are parallel---these are the only corners added to * newHoriz... */ priority.push_back(c->nextL); priority.push_back(c->prevL); } /* find a set of coplanar edges that survive this transition in winners * (equal highest priority) */ sort(priority.begin(), priority.end(), Skeleton::horizontalComparatorLT); IndirectLinkedHashSet<Edge *> winners; Edge *winner = priority.front(); priority.erase(priority.begin()); winners.push_back(winner); while (!priority.empty() && Skeleton::horizontalComparator(winner, priority.front()) == 0) { winners.push_back(priority.front()); priority.erase(priority.begin()); } /* if first edge needs an additional corner---"if we're adding a cap at * the start" and "first isn't already an interface" */ Corner *first = chain.chain.front(); if (!winners.contains(first->prevL)) { if (!intraface.contains(first->prevC)) // hasn't already been raised up by a previous chain { Corner *newFirst = GCNEW(Corner(Edge::collide(first->prevC, first->z))); Edge *edgeArr[2]; edgeArr[0] = first->prevL; edgeArr[1] = first->prevC->prevL; skel->output->addOutputSideTo(first->prevC, newFirst, 2, edgeArr); Corner::replace(first->prevC, newFirst, skel); chain.chain.insert(chain.chain.begin(), newFirst); intraface.push_back(newFirst); first = newFirst; } else chain.chain.insert(chain.chain.begin(), first->prevC); } else { /* the edge before the first point is a winner, add it */ chain.chain.insert(chain.chain.begin(), first = first->prevC); } Corner *last = chain.chain.at(chain.chain.size() - 1); /* if last edge needs an additional corner */ if (!winners.contains(last->nextL)) { if (!intraface.contains(last->nextC)) // hasn't already been raised up by a previous chain { Corner *newLast = GCNEW(Corner(Edge::collide(last->nextC, last->z))); Edge *edgeArr[2]; edgeArr[0] = last->nextL; edgeArr[1] = last->nextC->nextL; skel->output->addOutputSideTo(last->nextC, newLast, 2, edgeArr); Corner::replace(last->nextC, newLast, skel); chain.chain.push_back(newLast); intraface.push_back(newLast); last = newLast; } else chain.chain.push_back(last->nextC); } else { /* the edge after the last point is a winner, add it */ chain.chain.push_back(last = last->nextC); } STLIterator<vector<Corner *> > stit(chain.chain); ConsecutivePairs<Corner *> pairIt(&stit, false); while (pairIt.hasNext()) { tuple<Corner *, Corner *> *pair = pairIt.next(); Corner *s = pair->get<0>(); Corner *e = pair->get<1>(); if (s->nextL != e->prevL) throw runtime_error("error! s->nextL != e->prevL"); /* if this is he edge that spreads out all others */ if (winners.contains(s->nextL)) { if (s->nextL != winner) { skel->output->merge(winner->start, s); // assumes start of edge forms part of its output } s->nextL->currentCorners.remove(e); s->nextL->currentCorners.remove(s); } else { /* this (section of this) edge ends at this height */ s->nextL->currentCorners.remove(s); s->nextL->currentCorners.remove(e); Edge *edgeArr[2]; edgeArr[0] = s->nextL; edgeArr[1] = winner; skel->output->addOutputSideTo(s, e, 2, edgeArr); } skel->liveCorners.remove(s); // add in first and last below skel->liveCorners.remove(e); } skel->liveCorners.push_back(first); skel->liveCorners.push_back(last); winner->currentCorners.push_back(first); winner->currentCorners.push_back(last); first->nextC = last; last->prevC = first; first->nextL = winner; last->prevL = winner; for (vector<Corner *>::iterator it = chain.chain.begin(); it != chain.chain.end(); ++it) { Corner *c = *it; if (c->nextL->currentCorners.size() == 0) { skel->liveEdges.remove(c->nextL); } } } /* no need to recalculate events---no faces added. wrong! any new * connectivity needs to be flagged as loop-of-two etc... */ skel->qu->clearFaceEvents(); /* See Skeleton::refindFaceEventsIfNeeded() for CloneConfirmIterator * shenanigans * * -Tom */ IndirectLinkedHashSet<Corner *> bakLiveCorners; bakLiveCorners.insert(bakLiveCorners.end(), skel->liveCorners.begin(), skel->liveCorners.end()); for (IndirectLinkedHashSet<Corner *>::iterator lcit = bakLiveCorners.begin(); lcit != bakLiveCorners.end(); ++lcit) { Corner *lc = *lcit; if (!skel->liveCorners.contains(lc)) { cout << "*************DOES NOT CONTAIN!!!***********" << endl; continue; } skel->qu->addCorner(lc, this); } /* Just a check that my assumption that we don't /add/ to liveCorners * while iterating is correct. * * -Tom */ for (IndirectLinkedHashSet<Corner *>::iterator lcit = skel->liveCorners.begin(); lcit != skel->liveCorners.end(); ++lcit) { Corner *lc = *lcit; if (!bakLiveCorners.contains(lc)) { cout << "********liveCorners has but bakLiveCorners doesn't!: " << lc << endl; assert(false); } } }
void LinkedHashSetTest::testToString() { LinkedHashSet<std::string> s; std::string result = s.toString(); CPPUNIT_ASSERT_MESSAGE("toString returned bad value", result.find("LinkedHashSet") != std::string::npos); }
void OpenwireNonBlockingRedeliveryTest::testMessageRedeliveriesAreInOrder() { LinkedHashSet< Pointer<MessageId> > received; LinkedHashSet< Pointer<MessageId> > beforeRollback; LinkedHashSet< Pointer<MessageId> > afterRollback; const int MSG_COUNT = 100; const std::string destinationName = "testMessageDeleiveredWhenNonBlockingEnabled"; destroyDestination(getBrokerURL(), destinationName); Pointer<ActiveMQConnectionFactory> connectionFactory(new ActiveMQConnectionFactory(getBrokerURL())); Pointer<Connection> connection(connectionFactory->createConnection()); Pointer<Session> session(connection->createSession(Session::SESSION_TRANSACTED)); Pointer<Destination> destination(session->createQueue(destinationName)); Pointer<MessageConsumer> consumer(session->createConsumer(destination.get())); ReceivedListener receivedListener(&received); consumer->setMessageListener(&receivedListener); sendMessages(getBrokerURL(), destinationName, MSG_COUNT); connection->start(); CPPUNIT_ASSERT_MESSAGE("Pre-Rollack received size incorrect", assertTrue(received, MSG_COUNT)); beforeRollback.addAll(received); received.clear(); session->rollback(); CPPUNIT_ASSERT_MESSAGE("Post-Rollack received size incorrect", assertTrue(received, MSG_COUNT)); afterRollback.addAll(received); received.clear(); CPPUNIT_ASSERT_EQUAL(beforeRollback.size(), afterRollback.size()); CPPUNIT_ASSERT(beforeRollback.equals(afterRollback)); Pointer< Iterator<Pointer<MessageId> > > after(afterRollback.iterator()); Pointer< Iterator<Pointer<MessageId> > > before(beforeRollback.iterator()); while (before->hasNext() && after->hasNext()) { Pointer<MessageId> original = before->next(); Pointer<MessageId> rolledBack = after->next(); long long originalSeq = original->getProducerSequenceId(); long long rolledbackSeq = rolledBack->getProducerSequenceId(); CPPUNIT_ASSERT_EQUAL(originalSeq, rolledbackSeq); } session->commit(); connection->close(); destroyDestination(getBrokerURL(), destinationName); }