@Test
  public void test_checkMove_Correct() throws GameMoveException {
    final Dictionary dictionary = createDictionary("abcd", "def", "fefgabcd");
    final TilesBank tilesBank = new TilesBank(editor.createTilesBankInfo());
    final ScribbleBoard board =
        new ScribbleBoard(
            settings, Arrays.asList(player1, player2, player3), tilesBank, dictionary);
    h1 = board.getPlayerHand(player1);
    h2 = board.getPlayerHand(player2);
    h3 = board.getPlayerHand(player3);

    h1.setTiles(tilesBank.getTiles(0, 3, 6, 9, 12, 15, 18)); // abcdefg
    h2.setTiles(tilesBank.getTiles(1, 4, 7, 10, 13, 16, 19)); // abcdefg
    h3.setTiles(tilesBank.getTiles(2, 5, 8, 11, 14, 17, 20)); // abcdefg

    Personality person = board.getPlayerTurn();
    ScribblePlayerHand hand = board.getPlayerHand(person);
    final Tile[] moveTiles1 = Arrays.copyOf(hand.getTiles(), 4);
    board.makeTurn(person, new Word(new Position(7, 7), Direction.HORIZONTAL, moveTiles1)); // abcd
    assertEquals(1, board.getGameMoves().size());
    assertEquals(9, tilesBank.getTilesLimit());
    assertEquals(7, hand.getTiles().length);
    assertEquals(10, hand.getPoints());

    person = board.getPlayerTurn();
    hand = board.getPlayerHand(person);
    final Tile[] moveTiles2 = new Tile[3];
    moveTiles2[0] = moveTiles1[3]; // last 'd' letter
    System.arraycopy(hand.getTiles(), 4, moveTiles2, 1, 2);
    board.makeTurn(person, new Word(new Position(7, 10), Direction.HORIZONTAL, moveTiles2)); // def
    assertEquals(2, board.getGameMoves().size());
    assertEquals(7, tilesBank.getTilesLimit());
    assertEquals(7, hand.getTiles().length);
    assertEquals(30, hand.getPoints());

    person = board.getPlayerTurn();
    hand = board.getPlayerHand(person);
    final Tile[] moveTiles3 = new Tile[8];
    moveTiles3[0] = moveTiles2[2]; // last 'f' letter
    System.arraycopy(hand.getTiles(), 4, moveTiles3, 1, 3);
    System.arraycopy(hand.getTiles(), 0, moveTiles3, 4, 4);
    board.makeTurn(
        person, new Word(new Position(7, 12), Direction.VERTICAL, moveTiles3)); // fefgabcd

    assertEquals(3, board.getGameMoves().size());
    assertEquals(0, tilesBank.getTilesLimit());
    assertEquals(7, hand.getTiles().length);
    assertEquals(74, hand.getPoints()); // 6 + 5 + 6 + 7*2 + 1 + 2 + 3*2 + 4 +(30-all person) = 74
  }
  @BeforeMethod
  public void setUp() throws Exception {
    // do cleanup of other tests that may have started writers.
    // this is necessary in a non-forked test suite environment
    // where partition ids could collide
    Utils.finishBackupWriters();

    m_tmpDir = new File(System.getProperty("java.io.tmpdir"), "PartitionStoreStageTest");
    if (!m_tmpDir.exists()) {
      assertTrue("Failed to make the directories.", m_tmpDir.mkdirs());
    }

    // Add a dummy partition
    String server = "test";
    String storage = m_tmpDir + "/storage";

    File storageDir = new File(storage);
    if (!storageDir.exists()) {
      assertTrue("Failed to make the storage directory.", storageDir.mkdirs());
      if (!storageDir.exists()) {
        s_logger.warn("Storage Directory " + storage + " does not exist.");
      }
    }

    String mapped = m_tmpDir + "/mapped";

    File mappedDir = new File(mapped);
    if (!mappedDir.exists()) {
      assertTrue("Failed to make the mapped directories.", mappedDir.mkdirs());
      if (!mappedDir.exists()) {
        s_logger.warn("Storage Directory " + mapped + " does not exist.");
      }
    }

    if (m_part == null) {
      IPartitionManager pm = ManagementContainer.getInstance().getPartitionManager();
      m_part = pm.initializePartition(TEST_PID, server, storage, mapped);
    }
    Utils.startBackupWriters();
  }
  @Test
  public void testRoleAttackWithoutFeedback() throws Exception {

    UserManager manager = UserManager.getInstance();
    manager.removeUser("test001");
    manager.removeUser("test002");

    User user1 = manager.createDefaultUser();
    user1.set_id(new UserId("test001"));
    // user1.setSessionKey(SessionKey.createSessionKeyFromRandomString());
    user1.setUsername("test001");
    for (int i = 0; i < 1; i++) {
      user1.addTool(makeBuffTool(i));
    }
    user1.setBag(makeBag(user1, 3));

    User user2 = manager.createDefaultUser();
    user2.set_id(new UserId("test002"));
    // user2.setSessionKey(SessionKey.createSessionKeyFromRandomString());
    user2.setUsername("test002");
    for (int i = 0; i < 1; i++) {
      user2.addTool(makeBuffTool(i));
    }
    user2.setBag(makeBag(user2, 3));

    manager.saveUser(user1, true);
    manager.saveUserBag(user1, true);
    manager.saveUser(user2, true);
    manager.saveUserBag(user2, true);

    SessionManager sessionManager = new SessionManager();

    IoSession session1 = createNiceMock(IoSession.class);
    sessionManager.registerSession(session1, user1);

    IoSession session2 = createNiceMock(IoSession.class);
    sessionManager.registerSession(session2, user2);

    BattleManager battleManager = BattleManager.getInstance();
    battleManager.clearAllBattles();

    // Create two single room
    RoomManager roomManager = RoomManager.getInstance();
    roomManager.assignRoom(user1, RoomType.SINGLE_ROOM);
    roomManager.assignRoom(user2, RoomType.SINGLE_ROOM);
    // User1 and User2 press "ready start"
    roomManager.readyStart(user1.getSessionKey(), true);
    roomManager.readyStart(user2.getSessionKey(), true);

    Collection<Battle> battles = battleManager.findAllBattles();

    // Thread.sleep(Long.MAX_VALUE);
    assertEquals(1, battles.size());

    Battle battle = battles.iterator().next();
    // Change the battleMap
    ArrayList<BattleBitSetMap> battleMaps = BattleDataLoader4Bitmap.getBattleMapList();
    BattleBitSetMap map03 = null;
    for (BattleBitSetMap bm : battleMaps) {
      if (bm.getMapId().equals("0")) {
        map03 = bm;
        break;
      }
    }
    assertNotNull(map03);
    TestUtil.setPrivateFieldValue("battleMap", battle, map03);

    HashMap<SessionKey, BattleUser> battleUserMap = battle.getBattleUserMap();
    assertEquals(2, battleUserMap.size());

    BattleUser bUser1 = battleUserMap.get(user1.getSessionKey());
    BattleUser bUser2 = battleUserMap.get(user2.getSessionKey());

    assertEquals(user1.getSessionKey(), bUser1.getUserSessionKey());
    assertEquals(user1.getBlood(), bUser1.getBlood());
    assertEquals(user1.getTkew(), bUser1.getThew());

    Jedis jedis = JedisFactory.getJedis();

    // User1 and User2 are stage ready.
    // Test roundStart
    final ArrayList<Message> msgList = new ArrayList<Message>();
    MessageQueue queue = createMock(MessageQueue.class);
    queue.sessionWrite(anyObject(SessionKey.class), anyObject());
    expectLastCall()
        .andAnswer(
            new IAnswer<Object>() {
              public Object answer() throws Throwable {
                Object msg = getCurrentArguments()[1];
                msgList.add((Message) msg);
                return null;
              }
            })
        .anyTimes();
    TestUtil.setPrivateFieldValue("messageQueue", GameContext.getInstance(), queue);
    replay(queue);

    battleManager.stageReady(user1.getSessionKey());
    battleManager.stageReady(user2.getSessionKey());

    // System.out.println(msgList);
    // Check if roundStart is called
    assertEquals(2, msgList.size());
    BseRoundStart roundStart = (BseRoundStart) msgList.get(0);
    assertNotNull(roundStart.getUserId(0));
    assertNotNull(roundStart.getUserId(1));
    // userPos: (990, 37), angle: 93, power: 83, dir: 1
    // Role Attack
    msgList.clear();
    BceRoleAttack.Builder bceRoleAttack = BceRoleAttack.newBuilder();
    bceRoleAttack.setAngle(150000);
    bceRoleAttack.setAtkAngle(bceRoleAttack.getAngle());
    bceRoleAttack.setDirection(RoleDirection.RIGHT.ordinal());
    bceRoleAttack.setPower(30);
    int userx = 1380;
    int usery = 697;
    bceRoleAttack.setUserx(userx);
    bceRoleAttack.setUsery(usery);
    bUser1.setPosX(userx);
    bUser1.setPosY(usery);
    bUser2.setPosX(userx);
    bUser2.setPosY(usery);

    battleManager.roleAttack(bUser1.getUserSessionKey(), bceRoleAttack.build());

    // System.out.println(msgList);
    // 2 roleAttack messages, 2 roundStart messages.
    long timeOut = System.currentTimeMillis() + 10000;
    Message xinqi = null;
    while (System.currentTimeMillis() < timeOut) {
      int size = msgList.size();
      for (int i = 0; i < size; i++) {
        Object xm = msgList.get(i);
        if (xm instanceof BseAskRoundOver) {
          xinqi = (Message) xm;
          break;
        }
      }
      Thread.sleep(200);
    }
    assertTrue(xinqi != null);

    verify(queue);

    // Clean system.
    jedis.del(battle.getBattleSessionKey().toString());
    jedis.del(user1.getSessionKey().toString());
    jedis.del(user2.getSessionKey().toString());
  }
Example #4
0
  @Test
  public void testOverTcpGetPerf() throws IOException, InterruptedException {
    String name = TMP + "/testOverTcpGetPerf0";
    String name2 = TMP + "/testOverTcpGetPerf2";
    ChronicleTools.deleteOnExit(name);
    ChronicleTools.deleteOnExit(name2);

    long start = System.nanoTime();
    int PORT = 12345;
    int size = 0;

    InProcessChronicleSource chronicle =
        new InProcessChronicleSource(new IndexedChronicle(name), PORT);
    DataStore dataStore = new DataStore(chronicle, ModelMode.MASTER);
    MapWrapper<String, String> strings =
        new MapWrapper<String, String>(
            dataStore,
            "strings",
            String.class,
            String.class,
            new LinkedHashMap<String, String>(),
            16);
    MapWrapper<Integer, Integer> ints =
        new MapWrapper<Integer, Integer>(
            dataStore,
            "ints",
            Integer.class,
            Integer.class,
            new LinkedHashMap<Integer, Integer>(),
            16);
    dataStore.start();
    ints.clear();
    strings.clear();

    InProcessChronicleSink chronicle2 =
        new InProcessChronicleSink(new IndexedChronicle(name2), "localhost", PORT);
    DataStore dataStore2 = new DataStore(chronicle2, ModelMode.READ_ONLY);
    MapWrapper<String, String> strings2 =
        new MapWrapper<String, String>(
            dataStore2,
            "strings",
            String.class,
            String.class,
            new LinkedHashMap<String, String>(),
            16);
    MapWrapper<Integer, Integer> ints2 =
        new MapWrapper<Integer, Integer>(
            dataStore2,
            "ints",
            Integer.class,
            Integer.class,
            new LinkedHashMap<Integer, Integer>(),
            16);

    final AtomicInteger sai = new AtomicInteger();
    MapListener<String, String> stringsListener =
        new AbstractMapListener<String, String>() {
          @Override
          public void update(String key, String oldValue, String newValue) {
            //                System.out.println(key + " " + oldValue + " => " + newValue);
            sai.incrementAndGet();
          }
        };
    strings2.addListener(stringsListener);

    final AtomicInteger iai = new AtomicInteger();
    MapListener<Integer, Integer> intsListener =
        new AbstractMapListener<Integer, Integer>() {
          @Override
          public void update(Integer key, Integer oldValue, Integer newValue) {
            //                System.out.println(key + " " + oldValue + " => " + newValue);
            iai.incrementAndGet();
          }
        };
    ints2.addListener(intsListener);
    dataStore2.start();

    Map<String, String> ssMap = new LinkedHashMap<String, String>();
    Map<Integer, Integer> iiMap = new LinkedHashMap<Integer, Integer>();
    int count = 2; // one clear per collection
    int collectionSize = 2000;
    for (int i = 0; i < collectionSize; i++) {
      iiMap.put(i, i);
      ssMap.put(Integer.toString(i), Integer.toString(i));
    }

    strings.putAll(ssMap);
    ints.putAll(iiMap);
    count += 2;

    //        int timeout = 0;
    while (dataStore2.events() < count) {
      //            if (timeout++ % 10000 == 0)
      //                System.out.println(dataStore2.events());
      dataStore2.nextEvent();
    }
    assertEquals(collectionSize, strings.size());
    assertEquals(collectionSize, strings2.size());
    assertEquals(collectionSize, ints.size());
    assertEquals(collectionSize, ints2.size());

    int gets = 0;
    for (int j = 0; j < 50000; j++) {
      for (String s : ssMap.keySet()) {
        String s1 = strings.get(s);
        String s2 = strings2.get(s);
        if (s1 == null) assertNotNull(s1);
        if (!s1.equals(s2)) assertEquals(s1, s2);
      }
      gets += ssMap.size();
      for (Integer i : iiMap.keySet()) {
        Integer i1 = ints.get(i);
        Integer i2 = ints2.get(i);
        if (i1 == null) assertNotNull(i1);
        if (!i1.equals(i2)) assertEquals(i1, i2);
      }
      gets += iiMap.size();
    }

    chronicle.close();
    chronicle2.close();
    long end = System.nanoTime();

    System.out.printf(
        "Average get time including startup, bootstrap and shutdown, took %.3f us average per key%n",
        (end - start) / gets / 1e3);
  }
Example #5
0
/** @author peter.lawrey */
public class MapWrapperTest {
  static final String TMP = System.getProperty("java.io.tmpdir");

  @Test
  public void testMethods() throws IOException {
    String name = TMP + "/set-methods";
    ChronicleTools.deleteOnExit(name);
    {
      MapListener stringsListener = createMock("strings", MapListener.class);
      stringsListener.eventStart(1, "strings");
      stringsListener.add("Hello", "hi");
      stringsListener.eventEnd(true);

      stringsListener.eventStart(3, "strings");
      stringsListener.add("World", "all");
      stringsListener.eventEnd(true);

      MapListener intListener = createMock("ints", MapListener.class);
      for (int i = 0; i < 3; i++) {
        intListener.eventStart(i * 2, "ints");
        intListener.add(i, i + 1000);
        intListener.eventEnd(true);
      }

      replay(stringsListener);
      replay(intListener);
      Chronicle chronicle = new IndexedChronicle(name);
      DataStore dataStore = new DataStore(chronicle, ModelMode.MASTER);
      MapWrapper<String, String> strings =
          new MapWrapper<String, String>(
              dataStore,
              "strings",
              String.class,
              String.class,
              new LinkedHashMap<String, String>(),
              16);
      strings.addListener(stringsListener);
      MapWrapper<Integer, Integer> ints =
          new MapWrapper<Integer, Integer>(
              dataStore,
              "ints",
              Integer.class,
              Integer.class,
              new LinkedHashMap<Integer, Integer>(),
              16);
      ints.addListener(intListener);

      dataStore.start();

      ints.put(0, 1000);
      strings.put("Hello", "hi");
      ints.put(1, 1001);
      strings.put("World", "all");
      ints.put(2, 1002);

      verify(stringsListener);
      verify(intListener);

      assertEquals("{Hello=hi, World=all}", strings.toString());
      assertEquals("{0=1000, 1=1001, 2=1002}", ints.toString());

      chronicle.close();
    }
    {
      MapListener stringsListener = createMock("strings", MapListener.class);
      stringsListener.eventStart(5, "strings");
      stringsListener.add("!", "end");
      stringsListener.eventEnd(true);

      MapListener intListener = createMock("ints", MapListener.class);

      intListener.eventStart(6, "ints");
      intListener.add(3, 1003);
      intListener.eventEnd(true);

      replay(stringsListener);
      replay(intListener);

      Chronicle chronicle = new IndexedChronicle(name);
      DataStore dataStore = new DataStore(chronicle, ModelMode.MASTER);
      MapWrapper<String, String> strings =
          new MapWrapper<String, String>(
              dataStore,
              "strings",
              String.class,
              String.class,
              new LinkedHashMap<String, String>(),
              16);
      strings.addListener(stringsListener);
      MapWrapper<Integer, Integer> ints =
          new MapWrapper<Integer, Integer>(
              dataStore,
              "ints",
              Integer.class,
              Integer.class,
              new LinkedHashMap<Integer, Integer>(),
              16);
      ints.addListener(intListener);

      // assume we have  all the events written so far
      dataStore.start(chronicle.size());

      strings.put("!", "end");
      ints.put(3, 1003);

      verify(stringsListener);
      verify(intListener);

      assertEquals("{Hello=hi, World=all, !=end}", strings.toString());
      assertEquals("{0=1000, 1=1001, 2=1002, 3=1003}", ints.toString());
      chronicle.close();
    }
  }

  @Test
  public void testMapPerformance() throws IOException {
    String name = TMP + "/map-perf";
    ChronicleTools.deleteOnExit(name);
    long start = System.nanoTime();
    int size = 0;
    {
      Chronicle chronicle = new IndexedChronicle(name);
      DataStore dataStore = new DataStore(chronicle, ModelMode.MASTER);
      MapWrapper<String, String> strings =
          new MapWrapper<String, String>(
              dataStore,
              "strings",
              String.class,
              String.class,
              new LinkedHashMap<String, String>(),
              16);
      MapWrapper<Integer, Integer> ints =
          new MapWrapper<Integer, Integer>(
              dataStore,
              "ints",
              Integer.class,
              Integer.class,
              new LinkedHashMap<Integer, Integer>(),
              16);
      dataStore.start();
      ints.clear();
      strings.clear();

      for (int j = 0; j < 10000; j++) {
        for (int i = 0; i < 100; i++) {
          ints.put(i, i + j);
          strings.put(Integer.toString(i), Integer.toString(i + j));
        }
        size += Math.min(strings.size(), ints.size());
        for (int i = 0; i < 100; i++) {
          ints.remove(i);
          strings.remove(Integer.toString(i));
        }
      }

      chronicle.close();
    }
    long mid = System.nanoTime();
    {
      Chronicle chronicle = new IndexedChronicle(name);
      DataStore dataStore = new DataStore(chronicle, ModelMode.MASTER);
      MapWrapper<String, String> strings =
          new MapWrapper<String, String>(
              dataStore,
              "strings",
              String.class,
              String.class,
              new LinkedHashMap<String, String>(),
              16);
      MapWrapper<Integer, Integer> ints =
          new MapWrapper<Integer, Integer>(
              dataStore,
              "ints",
              Integer.class,
              Integer.class,
              new LinkedHashMap<Integer, Integer>(),
              16);
      dataStore.start();
      chronicle.close();
    }
    long end = System.nanoTime();
    System.out.printf(
        "Took %.1f seconds avg to add&remove %,d elements and %.1f seconds avg to reload them%n",
        (mid - start) / 2e9, size, (end - mid) / 2e9);
  }

  @Test
  public void testOverTcp() throws IOException, InterruptedException {
    String name = TMP + "/testOverTcp0";
    String name2 = TMP + "/testOverTcp2";
    ChronicleTools.deleteOnExit(name);
    ChronicleTools.deleteOnExit(name2);

    long start = System.nanoTime();
    int PORT = 12345;
    int size = 0;

    InProcessChronicleSource chronicle =
        new InProcessChronicleSource(new IndexedChronicle(name), PORT);
    DataStore dataStore = new DataStore(chronicle, ModelMode.MASTER);
    MapWrapper<String, String> strings =
        new MapWrapper<String, String>(
            dataStore,
            "strings",
            String.class,
            String.class,
            new LinkedHashMap<String, String>(),
            16);
    MapWrapper<Integer, Integer> ints =
        new MapWrapper<Integer, Integer>(
            dataStore,
            "ints",
            Integer.class,
            Integer.class,
            new LinkedHashMap<Integer, Integer>(),
            16);
    dataStore.start();
    ints.clear();
    strings.clear();

    InProcessChronicleSink chronicle2 =
        new InProcessChronicleSink(new IndexedChronicle(name2), "localhost", PORT);
    DataStore dataStore2 = new DataStore(chronicle2, ModelMode.READ_ONLY);
    MapWrapper<String, String> strings2 =
        new MapWrapper<String, String>(
            dataStore2,
            "strings",
            String.class,
            String.class,
            new LinkedHashMap<String, String>(),
            16);
    MapWrapper<Integer, Integer> ints2 =
        new MapWrapper<Integer, Integer>(
            dataStore2,
            "ints",
            Integer.class,
            Integer.class,
            new LinkedHashMap<Integer, Integer>(),
            16);

    final AtomicInteger sai = new AtomicInteger();
    MapListener<String, String> stringsListener =
        new AbstractMapListener<String, String>() {
          @Override
          public void update(String key, String oldValue, String newValue) {
            //                System.out.println(key + " " + oldValue + " => " + newValue);
            sai.incrementAndGet();
          }
        };
    strings2.addListener(stringsListener);

    final AtomicInteger iai = new AtomicInteger();
    MapListener<Integer, Integer> intsListener =
        new AbstractMapListener<Integer, Integer>() {
          @Override
          public void update(Integer key, Integer oldValue, Integer newValue) {
            //                System.out.println(key + " " + oldValue + " => " + newValue);
            iai.incrementAndGet();
          }
        };
    ints2.addListener(intsListener);
    dataStore2.start();

    int count = 0;
    for (int j = 0; j < 1000; j++) {
      int collectionSize = 1000;
      for (int i = 0; i < collectionSize; i++) {
        ints.put(i, i + j);
        strings.put(Integer.toString(i), Integer.toString(i + j));
      }
      size += Math.min(strings.size(), ints.size());
      for (int i = 0; i < collectionSize; i++) {
        ints.remove(i);
        strings.remove(Integer.toString(i));
      }
      count += 4 * collectionSize;
    }
    long mid = System.nanoTime();

    //        int timeout = 0;
    while (dataStore2.events() < count) {
      //            if (timeout++ % 10000 == 0)
      //                System.out.println(dataStore2.events());
      dataStore2.nextEvent();
    }

    chronicle.close();
    chronicle2.close();
    long end = System.nanoTime();

    System.out.printf(
        "Startup and write took %.2f us on average and read and shutdown took %.2f on average%n",
        (mid - start) / count / 1e3, (end - mid) / count / 1e3);
  }

  @Test
  public void testOverTcpPutAllClear() throws IOException, InterruptedException {
    String name = TMP + "/testOverTcpPutAllClear0";
    String name2 = TMP + "/testOverTcpPutAllClear2";
    ChronicleTools.deleteOnExit(name);
    ChronicleTools.deleteOnExit(name2);

    long start = System.nanoTime();
    int PORT = 12345;
    int size = 0;

    InProcessChronicleSource chronicle =
        new InProcessChronicleSource(new IndexedChronicle(name), PORT);
    DataStore dataStore = new DataStore(chronicle, ModelMode.MASTER);
    MapWrapper<String, String> strings =
        new MapWrapper<String, String>(
            dataStore,
            "strings",
            String.class,
            String.class,
            new LinkedHashMap<String, String>(),
            16);
    MapWrapper<Integer, Integer> ints =
        new MapWrapper<Integer, Integer>(
            dataStore,
            "ints",
            Integer.class,
            Integer.class,
            new LinkedHashMap<Integer, Integer>(),
            16);
    dataStore.start();
    ints.clear();
    strings.clear();

    InProcessChronicleSink chronicle2 =
        new InProcessChronicleSink(new IndexedChronicle(name2), "localhost", PORT);
    DataStore dataStore2 = new DataStore(chronicle2, ModelMode.READ_ONLY);
    MapWrapper<String, String> strings2 =
        new MapWrapper<String, String>(
            dataStore2,
            "strings",
            String.class,
            String.class,
            new LinkedHashMap<String, String>(),
            16);
    MapWrapper<Integer, Integer> ints2 =
        new MapWrapper<Integer, Integer>(
            dataStore2,
            "ints",
            Integer.class,
            Integer.class,
            new LinkedHashMap<Integer, Integer>(),
            16);

    final AtomicInteger sai = new AtomicInteger();
    MapListener<String, String> stringsListener =
        new AbstractMapListener<String, String>() {
          @Override
          public void update(String key, String oldValue, String newValue) {
            //                System.out.println(key + " " + oldValue + " => " + newValue);
            sai.incrementAndGet();
          }
        };
    strings2.addListener(stringsListener);

    final AtomicInteger iai = new AtomicInteger();
    MapListener<Integer, Integer> intsListener =
        new AbstractMapListener<Integer, Integer>() {
          @Override
          public void update(Integer key, Integer oldValue, Integer newValue) {
            //                System.out.println(key + " " + oldValue + " => " + newValue);
            iai.incrementAndGet();
          }
        };
    ints2.addListener(intsListener);
    dataStore2.start();

    Map<String, String> ssMap = new LinkedHashMap<String, String>();
    Map<Integer, Integer> iiMap = new LinkedHashMap<Integer, Integer>();
    int count = 0;
    int collectionSize = 2000;
    for (int i = 0; i < collectionSize; i++) {
      iiMap.put(i, i);
      ssMap.put(Integer.toString(i), Integer.toString(i));
    }
    for (int j = 0; j < 2500; j++) {
      strings.putAll(ssMap);
      ints.putAll(iiMap);
      strings.clear();
      ints.clear();
      count += 4;
    }
    long mid = System.nanoTime();

    //        int timeout = 0;
    while (dataStore2.events() < count) {
      //            if (timeout++ % 10000 == 0)
      //                System.out.println(dataStore2.events());
      dataStore2.nextEvent();
    }

    chronicle.close();
    chronicle2.close();
    long end = System.nanoTime();

    System.out.printf(
        "Startup and write took %.2f us on average (per key) and read and shutdown took %.2f on average (per key)%n",
        (mid - start) / count / collectionSize / 1e3, (end - mid) / count / collectionSize / 1e3);
  }

  @Test
  public void testOverTcpGetPerf() throws IOException, InterruptedException {
    String name = TMP + "/testOverTcpGetPerf0";
    String name2 = TMP + "/testOverTcpGetPerf2";
    ChronicleTools.deleteOnExit(name);
    ChronicleTools.deleteOnExit(name2);

    long start = System.nanoTime();
    int PORT = 12345;
    int size = 0;

    InProcessChronicleSource chronicle =
        new InProcessChronicleSource(new IndexedChronicle(name), PORT);
    DataStore dataStore = new DataStore(chronicle, ModelMode.MASTER);
    MapWrapper<String, String> strings =
        new MapWrapper<String, String>(
            dataStore,
            "strings",
            String.class,
            String.class,
            new LinkedHashMap<String, String>(),
            16);
    MapWrapper<Integer, Integer> ints =
        new MapWrapper<Integer, Integer>(
            dataStore,
            "ints",
            Integer.class,
            Integer.class,
            new LinkedHashMap<Integer, Integer>(),
            16);
    dataStore.start();
    ints.clear();
    strings.clear();

    InProcessChronicleSink chronicle2 =
        new InProcessChronicleSink(new IndexedChronicle(name2), "localhost", PORT);
    DataStore dataStore2 = new DataStore(chronicle2, ModelMode.READ_ONLY);
    MapWrapper<String, String> strings2 =
        new MapWrapper<String, String>(
            dataStore2,
            "strings",
            String.class,
            String.class,
            new LinkedHashMap<String, String>(),
            16);
    MapWrapper<Integer, Integer> ints2 =
        new MapWrapper<Integer, Integer>(
            dataStore2,
            "ints",
            Integer.class,
            Integer.class,
            new LinkedHashMap<Integer, Integer>(),
            16);

    final AtomicInteger sai = new AtomicInteger();
    MapListener<String, String> stringsListener =
        new AbstractMapListener<String, String>() {
          @Override
          public void update(String key, String oldValue, String newValue) {
            //                System.out.println(key + " " + oldValue + " => " + newValue);
            sai.incrementAndGet();
          }
        };
    strings2.addListener(stringsListener);

    final AtomicInteger iai = new AtomicInteger();
    MapListener<Integer, Integer> intsListener =
        new AbstractMapListener<Integer, Integer>() {
          @Override
          public void update(Integer key, Integer oldValue, Integer newValue) {
            //                System.out.println(key + " " + oldValue + " => " + newValue);
            iai.incrementAndGet();
          }
        };
    ints2.addListener(intsListener);
    dataStore2.start();

    Map<String, String> ssMap = new LinkedHashMap<String, String>();
    Map<Integer, Integer> iiMap = new LinkedHashMap<Integer, Integer>();
    int count = 2; // one clear per collection
    int collectionSize = 2000;
    for (int i = 0; i < collectionSize; i++) {
      iiMap.put(i, i);
      ssMap.put(Integer.toString(i), Integer.toString(i));
    }

    strings.putAll(ssMap);
    ints.putAll(iiMap);
    count += 2;

    //        int timeout = 0;
    while (dataStore2.events() < count) {
      //            if (timeout++ % 10000 == 0)
      //                System.out.println(dataStore2.events());
      dataStore2.nextEvent();
    }
    assertEquals(collectionSize, strings.size());
    assertEquals(collectionSize, strings2.size());
    assertEquals(collectionSize, ints.size());
    assertEquals(collectionSize, ints2.size());

    int gets = 0;
    for (int j = 0; j < 50000; j++) {
      for (String s : ssMap.keySet()) {
        String s1 = strings.get(s);
        String s2 = strings2.get(s);
        if (s1 == null) assertNotNull(s1);
        if (!s1.equals(s2)) assertEquals(s1, s2);
      }
      gets += ssMap.size();
      for (Integer i : iiMap.keySet()) {
        Integer i1 = ints.get(i);
        Integer i2 = ints2.get(i);
        if (i1 == null) assertNotNull(i1);
        if (!i1.equals(i2)) assertEquals(i1, i2);
      }
      gets += iiMap.size();
    }

    chronicle.close();
    chronicle2.close();
    long end = System.nanoTime();

    System.out.printf(
        "Average get time including startup, bootstrap and shutdown, took %.3f us average per key%n",
        (end - start) / gets / 1e3);
  }
}
Example #6
0
  @Test
  public void testOverTcpPutAllClear() throws IOException, InterruptedException {
    String name = TMP + "/testOverTcpPutAllClear0";
    String name2 = TMP + "/testOverTcpPutAllClear2";
    ChronicleTools.deleteOnExit(name);
    ChronicleTools.deleteOnExit(name2);

    long start = System.nanoTime();
    int PORT = 12345;
    int size = 0;

    InProcessChronicleSource chronicle =
        new InProcessChronicleSource(new IndexedChronicle(name), PORT);
    DataStore dataStore = new DataStore(chronicle, ModelMode.MASTER);
    MapWrapper<String, String> strings =
        new MapWrapper<String, String>(
            dataStore,
            "strings",
            String.class,
            String.class,
            new LinkedHashMap<String, String>(),
            16);
    MapWrapper<Integer, Integer> ints =
        new MapWrapper<Integer, Integer>(
            dataStore,
            "ints",
            Integer.class,
            Integer.class,
            new LinkedHashMap<Integer, Integer>(),
            16);
    dataStore.start();
    ints.clear();
    strings.clear();

    InProcessChronicleSink chronicle2 =
        new InProcessChronicleSink(new IndexedChronicle(name2), "localhost", PORT);
    DataStore dataStore2 = new DataStore(chronicle2, ModelMode.READ_ONLY);
    MapWrapper<String, String> strings2 =
        new MapWrapper<String, String>(
            dataStore2,
            "strings",
            String.class,
            String.class,
            new LinkedHashMap<String, String>(),
            16);
    MapWrapper<Integer, Integer> ints2 =
        new MapWrapper<Integer, Integer>(
            dataStore2,
            "ints",
            Integer.class,
            Integer.class,
            new LinkedHashMap<Integer, Integer>(),
            16);

    final AtomicInteger sai = new AtomicInteger();
    MapListener<String, String> stringsListener =
        new AbstractMapListener<String, String>() {
          @Override
          public void update(String key, String oldValue, String newValue) {
            //                System.out.println(key + " " + oldValue + " => " + newValue);
            sai.incrementAndGet();
          }
        };
    strings2.addListener(stringsListener);

    final AtomicInteger iai = new AtomicInteger();
    MapListener<Integer, Integer> intsListener =
        new AbstractMapListener<Integer, Integer>() {
          @Override
          public void update(Integer key, Integer oldValue, Integer newValue) {
            //                System.out.println(key + " " + oldValue + " => " + newValue);
            iai.incrementAndGet();
          }
        };
    ints2.addListener(intsListener);
    dataStore2.start();

    Map<String, String> ssMap = new LinkedHashMap<String, String>();
    Map<Integer, Integer> iiMap = new LinkedHashMap<Integer, Integer>();
    int count = 0;
    int collectionSize = 2000;
    for (int i = 0; i < collectionSize; i++) {
      iiMap.put(i, i);
      ssMap.put(Integer.toString(i), Integer.toString(i));
    }
    for (int j = 0; j < 2500; j++) {
      strings.putAll(ssMap);
      ints.putAll(iiMap);
      strings.clear();
      ints.clear();
      count += 4;
    }
    long mid = System.nanoTime();

    //        int timeout = 0;
    while (dataStore2.events() < count) {
      //            if (timeout++ % 10000 == 0)
      //                System.out.println(dataStore2.events());
      dataStore2.nextEvent();
    }

    chronicle.close();
    chronicle2.close();
    long end = System.nanoTime();

    System.out.printf(
        "Startup and write took %.2f us on average (per key) and read and shutdown took %.2f on average (per key)%n",
        (mid - start) / count / collectionSize / 1e3, (end - mid) / count / collectionSize / 1e3);
  }
Example #7
0
  @Test
  public void testMapPerformance() throws IOException {
    String name = TMP + "/map-perf";
    ChronicleTools.deleteOnExit(name);
    long start = System.nanoTime();
    int size = 0;
    {
      Chronicle chronicle = new IndexedChronicle(name);
      DataStore dataStore = new DataStore(chronicle, ModelMode.MASTER);
      MapWrapper<String, String> strings =
          new MapWrapper<String, String>(
              dataStore,
              "strings",
              String.class,
              String.class,
              new LinkedHashMap<String, String>(),
              16);
      MapWrapper<Integer, Integer> ints =
          new MapWrapper<Integer, Integer>(
              dataStore,
              "ints",
              Integer.class,
              Integer.class,
              new LinkedHashMap<Integer, Integer>(),
              16);
      dataStore.start();
      ints.clear();
      strings.clear();

      for (int j = 0; j < 10000; j++) {
        for (int i = 0; i < 100; i++) {
          ints.put(i, i + j);
          strings.put(Integer.toString(i), Integer.toString(i + j));
        }
        size += Math.min(strings.size(), ints.size());
        for (int i = 0; i < 100; i++) {
          ints.remove(i);
          strings.remove(Integer.toString(i));
        }
      }

      chronicle.close();
    }
    long mid = System.nanoTime();
    {
      Chronicle chronicle = new IndexedChronicle(name);
      DataStore dataStore = new DataStore(chronicle, ModelMode.MASTER);
      MapWrapper<String, String> strings =
          new MapWrapper<String, String>(
              dataStore,
              "strings",
              String.class,
              String.class,
              new LinkedHashMap<String, String>(),
              16);
      MapWrapper<Integer, Integer> ints =
          new MapWrapper<Integer, Integer>(
              dataStore,
              "ints",
              Integer.class,
              Integer.class,
              new LinkedHashMap<Integer, Integer>(),
              16);
      dataStore.start();
      chronicle.close();
    }
    long end = System.nanoTime();
    System.out.printf(
        "Took %.1f seconds avg to add&remove %,d elements and %.1f seconds avg to reload them%n",
        (mid - start) / 2e9, size, (end - mid) / 2e9);
  }