/**
   * Validate streams generate the same output.
   *
   * @param expIn Expected input stream.
   * @param actIn Actual input stream.
   * @param expSize Expected size of the streams.
   * @param seek Seek to use async position-based reading or {@code null} to use simple continuous
   *     reading.
   * @throws IOException In case of any IO exception.
   */
  private void assertEqualStreams(
      InputStream expIn, GridGgfsInputStream actIn, @Nullable Long expSize, @Nullable Long seek)
      throws IOException {
    if (seek != null) expIn.skip(seek);

    int bufSize = 2345;
    byte buf1[] = new byte[bufSize];
    byte buf2[] = new byte[bufSize];
    long pos = 0;

    long start = System.currentTimeMillis();

    while (true) {
      int read = (int) Math.min(bufSize, expSize - pos);

      int i1;

      if (seek == null) i1 = actIn.read(buf1, 0, read);
      else if (seek % 2 == 0) i1 = actIn.read(pos + seek, buf1, 0, read);
      else {
        i1 = read;

        actIn.readFully(pos + seek, buf1, 0, read);
      }

      // Read at least 0 byte, but don't read more then 'i1' or 'read'.
      int i2 = expIn.read(buf2, 0, Math.max(0, Math.min(i1, read)));

      if (i1 != i2) {
        fail(
            "Expects the same data [read="
                + read
                + ", pos="
                + pos
                + ", seek="
                + seek
                + ", i1="
                + i1
                + ", i2="
                + i2
                + ']');
      }

      if (i1 == -1) break; // EOF

      // i1 == bufSize => compare buffers.
      // i1 <  bufSize => Compare part of buffers, rest of buffers are equal from previous
      // iteration.
      assertTrue(
          "Expects the same data [read="
              + read
              + ", pos="
              + pos
              + ", seek="
              + seek
              + ", i1="
              + i1
              + ", i2="
              + i2
              + ']',
          Arrays.equals(buf1, buf2));

      if (read == 0) break; // Nothing more to read.

      pos += i1;
    }

    if (expSize != null) assertEquals(expSize.longValue(), pos);

    long time = System.currentTimeMillis() - start;

    if (time != 0 && log.isInfoEnabled()) {
      log.info(
          String.format(
              "Streams were compared in continuous reading " + "[size=%7d, rate=%3.1f MB/sec]",
              expSize, expSize * 1000. / time / 1024 / 1024));
    }
  }
  /** @return Client configuration for the test. */
  protected GridClientConfiguration clientConfiguration() throws GridClientException {
    GridClientConfiguration cfg = new GridClientConfiguration();

    cfg.setBalancer(getBalancer());

    cfg.setTopologyRefreshFrequency(TOP_REFRESH_FREQ);

    cfg.setProtocol(protocol());
    cfg.setServers(Arrays.asList(serverAddress()));
    cfg.setSslContextFactory(sslContextFactory());

    GridClientDataConfiguration loc = new GridClientDataConfiguration();

    GridClientDataConfiguration partitioned = new GridClientDataConfiguration();

    partitioned.setName(PARTITIONED_CACHE_NAME);
    partitioned.setAffinity(new GridClientPartitionAffinity());

    GridClientDataConfiguration replicated = new GridClientDataConfiguration();
    replicated.setName(REPLICATED_CACHE_NAME);

    GridClientDataConfiguration replicatedAsync = new GridClientDataConfiguration();
    replicatedAsync.setName(REPLICATED_ASYNC_CACHE_NAME);

    cfg.setDataConfigurations(Arrays.asList(loc, partitioned, replicated, replicatedAsync));

    return cfg;
  }
Exemple #3
0
  public static void main(String[] args) {
    // Generics, varargs & boxing working together:
    List<Integer> li = Arrays.asList(1, 2, 3, 4, 5, 6, 7);
    Integer result = reduce(li, new IntegerAdder());
    print(result);

    result = reduce(li, new IntegerSubtracter());
    print(result);

    print(filter(li, new GreaterThan<Integer>(4)));

    print(forEach(li, new MultiplyingIntegerCollector()).result());

    print(
        forEach(filter(li, new GreaterThan<Integer>(4)), new MultiplyingIntegerCollector())
            .result());

    MathContext mc = new MathContext(7);
    List<BigDecimal> lbd =
        Arrays.asList(
            new BigDecimal(1.1, mc),
            new BigDecimal(2.2, mc),
            new BigDecimal(3.3, mc),
            new BigDecimal(4.4, mc));
    BigDecimal rbd = reduce(lbd, new BigDecimalAdder());
    print(rbd);

    print(filter(lbd, new GreaterThan<BigDecimal>(new BigDecimal(3))));

    // Use the prime-generation facility of BigInteger:
    List<BigInteger> lbi = new ArrayList<BigInteger>();
    BigInteger bi = BigInteger.valueOf(11);
    for (int i = 0; i < 11; i++) {
      lbi.add(bi);
      bi = bi.nextProbablePrime();
    }
    print(lbi);

    BigInteger rbi = reduce(lbi, new BigIntegerAdder());
    print(rbi);
    // The sum of this list of primes is also prime:
    print(rbi.isProbablePrime(5));

    List<AtomicLong> lal =
        Arrays.asList(
            new AtomicLong(11), new AtomicLong(47), new AtomicLong(74), new AtomicLong(133));
    AtomicLong ral = reduce(lal, new AtomicLongAdder());
    print(ral);

    print(transform(lbd, new BigDecimalUlp()));
  }
  /** @throws Exception If failed. */
  public void testClientAffinity() throws Exception {
    GridClientData partitioned = client.data(PARTITIONED_CACHE_NAME);

    Collection<Object> keys = new ArrayList<>();

    keys.addAll(Arrays.asList(Boolean.TRUE, Boolean.FALSE, 1, Integer.MAX_VALUE));

    Random rnd = new Random();
    StringBuilder sb = new StringBuilder();

    // Generate some random strings.
    for (int i = 0; i < 100; i++) {
      sb.setLength(0);

      for (int j = 0; j < 255; j++)
        // Only printable ASCII symbols for test.
        sb.append((char) (rnd.nextInt(0x7f - 0x20) + 0x20));

      keys.add(sb.toString());
    }

    // Generate some more keys to achieve better coverage.
    for (int i = 0; i < 100; i++) keys.add(UUID.randomUUID());

    for (Object key : keys) {
      UUID nodeId = grid(0).mapKeyToNode(PARTITIONED_CACHE_NAME, key).id();

      UUID clientNodeId = partitioned.affinity(key);

      assertEquals(
          "Invalid affinity mapping for REST response for key: " + key, nodeId, clientNodeId);
    }
  }
  @Test
  public void testOnStartRequestsAreAdditiveAndOverflowBecomesMaxValue() {
    final List<Integer> list = new ArrayList<>();
    Observable.just(1, 2, 3, 4, 5)
        .subscribe(
            new Observer<Integer>() {
              @Override
              public void onStart() {
                request(2);
                request(Long.MAX_VALUE - 1);
              }

              @Override
              public void onComplete() {}

              @Override
              public void onError(Throwable e) {}

              @Override
              public void onNext(Integer t) {
                list.add(t);
              }
            });
    assertEquals(Arrays.asList(1, 2, 3, 4, 5), list);
  }
    // concurrent read/write access is allowed
    Object putAtomic(
        double key,
        Object value,
        Node b,
        boolean onlyIfAbsent,
        ConcurrentDoubleOrderedListMap orderedMap) {
      synchronized (b) {
        if (b.isMarked()) return Retry;
        synchronized (this) {
          if (isMarked()) return Retry;

          int len = len();
          int pos = Arrays.binarySearch(keys, 0, len, key);
          if (pos >= 0) {
            Object old = vals[pos];
            if (onlyIfAbsent) {
              if (old == null) {
                vals[pos] = value;
                return null;
              } else {
                return old;
              }
            }
            vals[pos] = value;
            return old;
          }
          pos = -(pos + 1);
          putAtomicReally(b, pos, key, value, orderedMap);
          return null;
        }
      }
    }
 Object get(double key) {
   if (len() == 0) return null;
   int pos;
   if (key == keys[0]) pos = 0;
   else pos = Arrays.binarySearch(keys, 0, len(), key);
   if (pos < 0) return null;
   return vals[pos];
 }
  @Override
  public void runTest() {
    setupArrays();

    dispatchMethodKernel(NUM);

    // note: the actual order of entries in outArray is not predictable
    // thus we sort before we compare results
    Arrays.sort(outArray);
  }
 // no concurrent read/write access is assumed
 Object put(double key, Object value, ConcurrentDoubleOrderedListMap orderedMap) {
   int len = len();
   int pos = Arrays.binarySearch(keys, 0, len, key);
   if (pos >= 0) {
     Object old = vals[pos];
     vals[pos] = value;
     return old;
   } else {
     pos = -(pos + 1);
     putReally(pos, key, value, orderedMap);
     return null;
   }
 }
  /**
   * Returns compact class host.
   *
   * @param obj Object to compact.
   * @return String.
   */
  @Nullable
  public static Object compactObject(Object obj) {
    if (obj == null) return null;

    if (obj instanceof Enum) return obj.toString();

    if (obj instanceof String || obj instanceof Boolean || obj instanceof Number) return obj;

    if (obj instanceof Collection) {
      Collection col = (Collection) obj;

      Object[] res = new Object[col.size()];

      int i = 0;

      for (Object elm : col) res[i++] = compactObject(elm);

      return res;
    }

    if (obj.getClass().isArray()) {
      Class<?> arrType = obj.getClass().getComponentType();

      if (arrType.isPrimitive()) {
        if (obj instanceof boolean[]) return Arrays.toString((boolean[]) obj);
        if (obj instanceof byte[]) return Arrays.toString((byte[]) obj);
        if (obj instanceof short[]) return Arrays.toString((short[]) obj);
        if (obj instanceof int[]) return Arrays.toString((int[]) obj);
        if (obj instanceof long[]) return Arrays.toString((long[]) obj);
        if (obj instanceof float[]) return Arrays.toString((float[]) obj);
        if (obj instanceof double[]) return Arrays.toString((double[]) obj);
      }

      Object[] arr = (Object[]) obj;

      int iMax = arr.length - 1;

      StringBuilder sb = new StringBuilder("[");

      for (int i = 0; i <= iMax; i++) {
        sb.append(compactObject(arr[i]));

        if (i != iMax) sb.append(", ");
      }

      sb.append("]");

      return sb.toString();
    }

    return U.compact(obj.getClass().getName());
  }
  /** This uses the public API collect which uses scan under the covers. */
  @Test
  public void testSeedFactory() {
    Observable<List<Integer>> o =
        Observable.range(1, 10)
            .collect(
                new Supplier<List<Integer>>() {

                  @Override
                  public List<Integer> get() {
                    return new ArrayList<>();
                  }
                },
                new BiConsumer<List<Integer>, Integer>() {

                  @Override
                  public void accept(List<Integer> list, Integer t2) {
                    list.add(t2);
                  }
                })
            .takeLast(1);

    assertEquals(Arrays.asList(1, 2, 3, 4, 5, 6, 7, 8, 9, 10), o.toBlocking().single());
    assertEquals(Arrays.asList(1, 2, 3, 4, 5, 6, 7, 8, 9, 10), o.toBlocking().single());
  }
  /**
   * Executes example.
   *
   * @param args Command line arguments, none required.
   * @throws GridException If example execution failed.
   */
  public static void main(String[] args) throws GridException {
    try (Grid g = GridGain.start("examples/config/example-compute.xml")) {
      System.out.println();
      System.out.println("Compute reducer example started.");

      Integer sum =
          g.compute()
              .apply(
                  new GridClosure<String, Integer>() {
                    @Override
                    public Integer apply(String word) {
                      System.out.println();
                      System.out.println(">>> Printing '" + word + "' on this node from grid job.");

                      // Return number of letters in the word.
                      return word.length();
                    }
                  },

                  // Job parameters. GridGain will create as many jobs as there are parameters.
                  Arrays.asList("Count characters using reducer".split(" ")),

                  // Reducer to process results as they come.
                  new GridReducer<Integer, Integer>() {
                    private AtomicInteger sum = new AtomicInteger();

                    // Callback for every job result.
                    @Override
                    public boolean collect(Integer len) {
                      sum.addAndGet(len);

                      // Return true to continue waiting until all results are received.
                      return true;
                    }

                    // Reduce all results into one.
                    @Override
                    public Integer reduce() {
                      return sum.get();
                    }
                  })
              .get();

      System.out.println();
      System.out.println(">>> Total number of characters in the phrase is '" + sum + "'.");
      System.out.println(">>> Check all nodes for output (this node is also part of the grid).");
    }
  }
  /**
   * Concat arrays in one.
   *
   * @param arrays Arrays.
   * @return Summary array.
   */
  public static int[] concat(int[]... arrays) {
    assert arrays != null;
    assert arrays.length > 1;

    int len = 0;

    for (int[] a : arrays) len += a.length;

    int[] r = Arrays.copyOf(arrays[0], len);

    for (int i = 1, shift = 0; i < arrays.length; i++) {
      shift += arrays[i - 1].length;
      System.arraycopy(arrays[i], 0, r, shift, arrays[i].length);
    }

    return r;
  }
    Object replace(double key, Object expect, Object value) {
      synchronized (this) {
        if (isMarked()) return Retry;

        int len = len();
        int pos = Arrays.binarySearch(keys, 0, len, key);
        if (pos < 0) return null;
        Object old = vals[pos];
        if (expect == null) {
          vals[pos] = value;
          return old;
        } else if (expect.equals(old)) {
          vals[pos] = value;
          return old;
        } else {
          return null;
        }
      }
    }
Exemple #15
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  @Test
  public void testStartWithWithScheduler() {
    TestScheduler scheduler = new TestScheduler();
    Observable<Integer> observable =
        Observable.just(3, 4).startWith(Arrays.asList(1, 2)).subscribeOn(scheduler);

    Subscriber<Integer> observer = TestHelper.mockSubscriber();

    observable.subscribe(observer);

    scheduler.advanceTimeBy(1, TimeUnit.MILLISECONDS);

    InOrder inOrder = inOrder(observer);
    inOrder.verify(observer, times(1)).onNext(1);
    inOrder.verify(observer, times(1)).onNext(2);
    inOrder.verify(observer, times(1)).onNext(3);
    inOrder.verify(observer, times(1)).onNext(4);
    inOrder.verify(observer, times(1)).onComplete();
    inOrder.verifyNoMoreInteractions();
  }
  /**
   * Determines and stores the network sites to test for public network connectivity. The sites are
   * drawn from the JVM's gov.nasa.worldwind.avkey.NetworkStatusTestSites property ({@link
   * AVKey#NETWORK_STATUS_TEST_SITES}). If that property is not defined, the sites are drawn from
   * the same property in the World Wind or application configuration file. If the sites are not
   * specified there, the set of sites specified in {@link #DEFAULT_NETWORK_TEST_SITES} are used. To
   * indicate an empty list in the JVM property or configuration file property, specify an empty
   * site list, "".
   */
  protected void establishNetworkTestSites() {
    String testSites = System.getProperty(AVKey.NETWORK_STATUS_TEST_SITES);

    if (testSites == null)
      testSites = Configuration.getStringValue(AVKey.NETWORK_STATUS_TEST_SITES);

    if (testSites == null) {
      this.networkTestSites.addAll(Arrays.asList(DEFAULT_NETWORK_TEST_SITES));
    } else {
      String[] sites = testSites.split(",");
      List<String> actualSites = new ArrayList<String>(sites.length);

      for (String site : sites) {
        site = WWUtil.removeWhiteSpace(site);
        if (!WWUtil.isEmpty(site)) actualSites.add(site);
      }

      this.setNetworkTestSites(actualSites);
    }
  }
  private long tailFile(Path file, long startPos) throws IOException {
    long numRead = 0;
    FSDataInputStream inputStream = fileSystem.open(file);
    inputStream.seek(startPos);

    int len = 4 * 1024;
    byte[] buf = new byte[len];
    int read;
    while ((read = inputStream.read(buf)) > -1) {
      LOG.info(String.format("read %d bytes", read));

      if (!validateSequentialBytes(buf, (int) (startPos + numRead), read)) {
        LOG.error(String.format("invalid bytes: [%s]\n", Arrays.toString(buf)));
        throw new ChecksumException(String.format("unable to validate bytes"), startPos);
      }

      numRead += read;
    }

    inputStream.close();
    return numRead + startPos - 1;
  }
  /**
   * Run command in separated console.
   *
   * @param workFolder Work folder for command.
   * @param args A string array containing the program and its arguments.
   * @return Started process.
   * @throws IOException If failed to start process.
   */
  public static Process openInConsole(@Nullable File workFolder, String... args)
      throws IOException {
    String[] commands = args;

    String cmd = F.concat(Arrays.asList(args), " ");

    if (U.isWindows()) commands = F.asArray("cmd", "/c", String.format("start %s", cmd));

    if (U.isMacOs())
      commands =
          F.asArray(
              "osascript",
              "-e",
              String.format("tell application \"Terminal\" to do script \"%s\"", cmd));

    if (U.isUnix()) commands = F.asArray("xterm", "-sl", "1024", "-geometry", "200x50", "-e", cmd);

    ProcessBuilder pb = new ProcessBuilder(commands);

    if (workFolder != null) pb.directory(workFolder);

    return pb.start();
  }
 /**
  * Constructs data loader peer-deploy aware.
  *
  * @param objs Collection of objects to detect deploy class and class loader.
  */
 private DataLoaderPda(Object... objs) {
   this.objs = Arrays.asList(objs);
 }
  /** @throws Exception If failed. */
  public void testCreateFileFragmented() throws Exception {
    GridGgfsEx impl = (GridGgfsEx) grid(0).ggfs("ggfs");

    GridGgfsFragmentizerManager fragmentizer = impl.context().fragmentizer();

    GridTestUtils.setFieldValue(fragmentizer, "fragmentizerEnabled", false);

    GridGgfsPath path = new GridGgfsPath("/file");

    try {
      GridGgfs fs0 = grid(0).ggfs("ggfs");
      GridGgfs fs1 = grid(1).ggfs("ggfs");
      GridGgfs fs2 = grid(2).ggfs("ggfs");

      try (GridGgfsOutputStream out =
          fs0.create(
              path,
              128,
              false,
              1,
              CFG_GRP_SIZE,
              F.asMap(GridGgfs.PROP_PREFER_LOCAL_WRITES, "true"))) {
        // 1.5 blocks
        byte[] data = new byte[CFG_BLOCK_SIZE * 3 / 2];

        Arrays.fill(data, (byte) 1);

        out.write(data);
      }

      try (GridGgfsOutputStream out = fs1.append(path, false)) {
        // 1.5 blocks.
        byte[] data = new byte[CFG_BLOCK_SIZE * 3 / 2];

        Arrays.fill(data, (byte) 2);

        out.write(data);
      }

      // After this we should have first two block colocated with grid 0 and last block colocated
      // with grid 1.
      GridGgfsFileImpl fileImpl = (GridGgfsFileImpl) fs.info(path);

      GridCache<Object, Object> metaCache = grid(0).cachex(META_CACHE_NAME);

      GridGgfsFileInfo fileInfo = (GridGgfsFileInfo) metaCache.get(fileImpl.fileId());

      GridGgfsFileMap map = fileInfo.fileMap();

      List<GridGgfsFileAffinityRange> ranges = map.ranges();

      assertEquals(2, ranges.size());

      assertTrue(ranges.get(0).startOffset() == 0);
      assertTrue(ranges.get(0).endOffset() == 2 * CFG_BLOCK_SIZE - 1);

      assertTrue(ranges.get(1).startOffset() == 2 * CFG_BLOCK_SIZE);
      assertTrue(ranges.get(1).endOffset() == 3 * CFG_BLOCK_SIZE - 1);

      // Validate data read after colocated writes.
      try (GridGgfsInputStream in = fs2.open(path)) {
        // Validate first part of file.
        for (int i = 0; i < CFG_BLOCK_SIZE * 3 / 2; i++) assertEquals((byte) 1, in.read());

        // Validate second part of file.
        for (int i = 0; i < CFG_BLOCK_SIZE * 3 / 2; i++) assertEquals((byte) 2, in.read());

        assertEquals(-1, in.read());
      }
    } finally {
      GridTestUtils.setFieldValue(fragmentizer, "fragmentizerEnabled", true);

      boolean hasData = false;

      for (int i = 0; i < NODES_CNT; i++) hasData |= !grid(i).cachex(DATA_CACHE_NAME).isEmpty();

      assertTrue(hasData);

      fs.delete(path, true);
    }

    GridTestUtils.retryAssert(
        log,
        ASSERT_RETRIES,
        ASSERT_RETRY_INTERVAL,
        new CAX() {
          @Override
          public void applyx() {
            for (int i = 0; i < NODES_CNT; i++)
              assertTrue(grid(i).cachex(DATA_CACHE_NAME).isEmpty());
          }
        });
  }
  public static void main(String[] args) {
    // TODO main
    OptionParser parser = new OptionParser();
    parser.acceptsAll(Arrays.asList("h", "help"), "Show this help dialog.");
    OptionSpec<String> serverOption =
        parser
            .acceptsAll(Arrays.asList("s", "server"), "Server to join.")
            .withRequiredArg()
            .describedAs("server-address[:port]");
    OptionSpec<String> proxyOption =
        parser
            .acceptsAll(
                Arrays.asList("P", "proxy"),
                "SOCKS proxy to use. Ignored in presence of 'socks-proxy-list'.")
            .withRequiredArg()
            .describedAs("proxy-address");
    OptionSpec<String> ownerOption =
        parser
            .acceptsAll(
                Arrays.asList("o", "owner"), "Owner of the bot (username of in-game control).")
            .withRequiredArg()
            .describedAs("username");
    OptionSpec<?> offlineOption =
        parser.acceptsAll(
            Arrays.asList("O", "offline"),
            "Offline-mode. Ignores 'password' and 'account-list' (will "
                + "generate random usernames if 'username' is not supplied).");
    OptionSpec<?> autoRejoinOption =
        parser.acceptsAll(Arrays.asList("a", "auto-rejoin"), "Auto-rejoin a server on disconnect.");
    OptionSpec<Integer> loginDelayOption =
        parser
            .acceptsAll(
                Arrays.asList("d", "login-delay"),
                "Delay between bot joins, in milliseconds. 5000 is "
                    + "recommended if not using socks proxies.")
            .withRequiredArg()
            .describedAs("delay")
            .ofType(Integer.class);
    OptionSpec<Integer> botAmountOption =
        parser
            .acceptsAll(
                Arrays.asList("b", "bot-amount"),
                "Amount of bots to join. Must be <= amount of accounts.")
            .withRequiredArg()
            .describedAs("amount")
            .ofType(Integer.class);
    OptionSpec<String> protocolOption =
        parser
            .accepts(
                "protocol",
                "Protocol version to use. Can be either protocol number or Minecraft version.")
            .withRequiredArg();
    OptionSpec<?> protocolsOption =
        parser.accepts("protocols", "List available protocols and exit.");

    OptionSpec<String> accountListOption =
        parser
            .accepts(
                "account-list",
                "File containing a list of accounts, in username/email:password format.")
            .withRequiredArg()
            .describedAs("file");
    OptionSpec<String> socksProxyListOption =
        parser
            .accepts(
                "socks-proxy-list",
                "File containing a list of SOCKS proxies, in address:port format.")
            .withRequiredArg()
            .describedAs("file");
    OptionSpec<String> httpProxyListOption =
        parser
            .accepts(
                "http-proxy-list",
                "File containing a list of HTTP proxies, in address:port format.")
            .withRequiredArg()
            .describedAs("file");
    OptionSpec<String> captchaListOption =
        parser
            .accepts("captcha-list", "File containing a list of chat baised captcha to bypass.")
            .withRequiredArg()
            .describedAs("file");

    OptionSet options;
    try {
      options = parser.parse(args);
    } catch (OptionException exception) {
      try {
        parser.printHelpOn(System.out);
      } catch (Exception exception1) {
        exception1.printStackTrace();
      }
      return;
    }

    if (options.has("help")) {
      printHelp(parser);
      return;
    }
    if (options.has(protocolsOption)) {
      System.out.println("Available protocols:");
      for (ProtocolProvider provider : ProtocolProvider.getProviders())
        System.out.println(
            "\t"
                + provider.getMinecraftVersion()
                + " ("
                + provider.getSupportedVersion()
                + "): "
                + provider.getClass().getName());
      System.out.println(
          "If no protocols are listed above, you may attempt to specify a protocol version in case the provider is actually in the class-path.");
      return;
    }

    final boolean offline = options.has(offlineOption);
    final boolean autoRejoin = options.has(autoRejoinOption);

    final List<String> accounts;
    if (options.has(accountListOption)) {
      accounts = loadAccounts(options.valueOf(accountListOption));
    } else if (!offline) {
      System.out.println("Option 'accounts' must be supplied in " + "absence of option 'offline'.");
      printHelp(parser);
      return;
    } else accounts = null;

    final List<String> captcha;
    if (options.has(captchaListOption)) readCaptchaFile(options.valueOf(captchaListOption));

    final String server;
    if (!options.has(serverOption)) {
      System.out.println("Option 'server' required.");
      printHelp(parser);
      return;
    } else server = options.valueOf(serverOption);

    final String owner;
    if (!options.has(ownerOption)) {
      System.out.println("Option 'owner' required.");
      printHelp(parser);
      return;
    } else owner = options.valueOf(ownerOption);

    final int protocol;
    if (options.has(protocolOption)) {
      String protocolString = options.valueOf(protocolOption);
      int parsedProtocol;
      try {
        parsedProtocol = Integer.parseInt(protocolString);
      } catch (NumberFormatException exception) {
        ProtocolProvider foundProvider = null;
        for (ProtocolProvider provider : ProtocolProvider.getProviders())
          if (protocolString.equals(provider.getMinecraftVersion())) foundProvider = provider;
        if (foundProvider == null) {
          System.out.println("No provider found for Minecraft version '" + protocolString + "'.");
          return;
        } else parsedProtocol = foundProvider.getSupportedVersion();
      }
      protocol = parsedProtocol;
    } else protocol = MinecraftBot.LATEST_PROTOCOL;

    final List<String> socksProxies;
    if (options.has(socksProxyListOption))
      socksProxies = loadProxies(options.valueOf(socksProxyListOption));
    else socksProxies = null;
    final boolean useProxy = socksProxies != null;

    final List<String> httpProxies;
    if (options.has(httpProxyListOption))
      httpProxies = loadLoginProxies(options.valueOf(httpProxyListOption));
    else if (!offline && accounts != null) {
      System.out.println(
          "Option 'http-proxy-list' required if " + "option 'account-list' is supplied.");
      printHelp(parser);
      return;
    } else httpProxies = null;

    final int loginDelay;
    if (options.has(loginDelayOption)) loginDelay = options.valueOf(loginDelayOption);
    else loginDelay = 0;

    final int botAmount;
    if (!options.has(botAmountOption)) {
      System.out.println("Option 'bot-amount' required.");
      printHelp(parser);
      return;
    } else botAmount = options.valueOf(botAmountOption);

    initGui();
    while (!sessions.get()) {
      synchronized (sessions) {
        try {
          sessions.wait(5000);
        } catch (InterruptedException exception) {
        }
      }
    }

    final Queue<Runnable> lockQueue = new ArrayDeque<Runnable>();

    ExecutorService service = Executors.newFixedThreadPool(botAmount + (loginDelay > 0 ? 1 : 0));
    final Object firstWait = new Object();
    if (loginDelay > 0) {
      service.execute(
          new Runnable() {
            @Override
            public void run() {
              synchronized (firstWait) {
                try {
                  firstWait.wait();
                } catch (InterruptedException exception) {
                }
              }
              while (true) {
                try {
                  Thread.sleep(loginDelay);
                } catch (InterruptedException exception) {
                }
                synchronized (lockQueue) {
                  if (lockQueue.size() > 0) {
                    Runnable thread = lockQueue.poll();
                    synchronized (thread) {
                      thread.notifyAll();
                    }
                    lockQueue.offer(thread);
                  } else continue;
                }
                while (!sessions.get()) {
                  synchronized (sessions) {
                    try {
                      sessions.wait(5000);
                    } catch (InterruptedException exception) {
                    }
                  }
                }
              }
            }
          });
    }
    final List<String> accountsInUse = new ArrayList<String>();
    final Map<String, AtomicInteger> workingProxies = new HashMap<String, AtomicInteger>();
    for (int i = 0; i < botAmount; i++) {
      final int botNumber = i;
      Runnable runnable =
          new Runnable() {
            @Override
            public void run() {
              if (loginDelay > 0)
                synchronized (lockQueue) {
                  lockQueue.add(this);
                }
              Random random = new Random();

              if (!offline) {
                AuthService authService = new LegacyAuthService();
                boolean authenticated = false;
                user:
                while (true) {
                  if (authenticated) {
                    authenticated = false;
                    sessionCount.decrementAndGet();
                  }
                  Session session = null;
                  String loginProxy;
                  String account = accounts.get(random.nextInt(accounts.size()));
                  synchronized (accountsInUse) {
                    if (accountsInUse.size() == accounts.size()) System.exit(0);
                    while (accountsInUse.contains(account))
                      account = accounts.get(random.nextInt(accounts.size()));
                    accountsInUse.add(account);
                  }
                  String[] accountParts = account.split(":");
                  while (true) {
                    while (!sessions.get()) {
                      synchronized (sessions) {
                        try {
                          sessions.wait(5000);
                        } catch (InterruptedException exception) {
                        }
                      }
                    }
                    synchronized (workingProxies) {
                      Iterator<String> iterator = workingProxies.keySet().iterator();
                      if (iterator.hasNext()) loginProxy = iterator.next();
                      else loginProxy = httpProxies.get(random.nextInt(httpProxies.size()));
                      ;
                    }
                    try {
                      session =
                          authService.login(
                              accountParts[0],
                              accountParts[1],
                              toProxy(loginProxy, Proxy.Type.HTTP));
                      // addAccount(session);
                      synchronized (workingProxies) {
                        AtomicInteger count = workingProxies.get(loginProxy);
                        if (count != null) count.set(0);
                        else workingProxies.put(loginProxy, new AtomicInteger());
                      }
                      sessionCount.incrementAndGet();
                      authenticated = true;
                      break;
                    } catch (IOException exception) {
                      synchronized (workingProxies) {
                        workingProxies.remove(loginProxy);
                      }
                      System.err.println("[Bot" + botNumber + "] " + loginProxy + ": " + exception);
                    } catch (AuthenticationException exception) {
                      if (exception.getMessage().contains("Too many failed logins")) {
                        synchronized (workingProxies) {
                          AtomicInteger count = workingProxies.get(loginProxy);
                          if (count != null && count.incrementAndGet() >= 5)
                            workingProxies.remove(loginProxy);
                        }
                      }
                      System.err.println("[Bot" + botNumber + "] " + loginProxy + ": " + exception);
                      continue user;
                    }
                  }
                  System.out.println("[" + session.getUsername() + "] " + session);
                  while (!joins.get()) {
                    synchronized (joins) {
                      try {
                        joins.wait(5000);
                      } catch (InterruptedException exception) {
                      }
                    }
                  }
                  if (loginDelay > 0) {
                    synchronized (this) {
                      try {
                        synchronized (firstWait) {
                          firstWait.notifyAll();
                        }
                        wait();
                      } catch (InterruptedException exception) {
                      }
                    }
                  }

                  while (true) {
                    String proxy =
                        useProxy ? socksProxies.get(random.nextInt(socksProxies.size())) : null;
                    try {
                      DarkBotMCSpambot bot =
                          new DarkBotMCSpambot(
                              generateData(
                                  server,
                                  session.getUsername(),
                                  session.getPassword(),
                                  authService,
                                  session,
                                  protocol,
                                  null,
                                  proxy),
                              owner);
                      while (bot.getBot().isConnected()) {
                        try {
                          Thread.sleep(500);
                        } catch (InterruptedException exception) {
                          exception.printStackTrace();
                        }
                      }
                      if (!autoRejoin) break;
                    } catch (Exception exception) {
                      exception.printStackTrace();
                      System.out.println(
                          "["
                              + session.getUsername()
                              + "] Error connecting: "
                              + exception.getCause().toString());
                    }
                  }
                  System.out.println("[" + session.getUsername() + "] Account failed");
                }
              } else {
                while (true) {
                  String proxy =
                      useProxy ? socksProxies.get(random.nextInt(socksProxies.size())) : null;
                  try {
                    String username;
                    if (accounts != null) {
                      username = accounts.get(random.nextInt(accounts.size())).split(":")[0];
                      synchronized (accountsInUse) {
                        while (accountsInUse.contains(username))
                          username = accounts.get(random.nextInt(accounts.size()));
                        accountsInUse.add(username);
                      }
                    } else username = Util.generateRandomString(10 + random.nextInt(6));
                    if (loginDelay > 0) {
                      synchronized (this) {
                        try {
                          synchronized (firstWait) {
                            firstWait.notifyAll();
                          }
                          wait();
                        } catch (InterruptedException exception) {
                        }
                      }
                    }
                    DarkBotMCSpambot bot =
                        new DarkBotMCSpambot(
                            generateData(server, username, null, null, null, protocol, null, proxy),
                            owner);
                    while (bot.getBot().isConnected()) {
                      try {
                        Thread.sleep(500);
                      } catch (InterruptedException exception) {
                        exception.printStackTrace();
                      }
                    }
                    if (!autoRejoin) break;
                    else continue;
                  } catch (Exception exception) {
                    System.out.println(
                        "[Bot" + botNumber + "] Error connecting: " + exception.toString());
                  }
                }
              }
            }
          };
      service.execute(runnable);
    }
    service.shutdown();
    while (!service.isTerminated()) {
      try {
        service.awaitTermination(9000, TimeUnit.DAYS);
      } catch (InterruptedException exception) {
        exception.printStackTrace();
      }
    }
    System.exit(0);
  }
 boolean contains(double key) {
   return Arrays.binarySearch(keys, 0, len(), key) >= 0;
 }
 int findKeyIndex(double key) {
   return Arrays.binarySearch(keys, 0, len(), key);
 }
  public static void main(String[] args) {
    // TODO main
    OptionParser parser = new OptionParser();
    parser.acceptsAll(Arrays.asList("h", "help"), "Show this help dialog.");
    OptionSpec<String> serverOption =
        parser
            .acceptsAll(Arrays.asList("s", "server"), "Server to join.")
            .withRequiredArg()
            .describedAs("server-address[:port]");
    OptionSpec<String> proxyOption =
        parser
            .acceptsAll(
                Arrays.asList("P", "proxy"),
                "SOCKS proxy to use. Ignored in presence of 'socks-proxy-list'.")
            .withRequiredArg()
            .describedAs("proxy-address");
    OptionSpec<String> ownerOption =
        parser
            .acceptsAll(
                Arrays.asList("o", "owner"), "Owner of the bot (username of in-game control).")
            .withRequiredArg()
            .describedAs("username");
    OptionSpec<?> offlineOption =
        parser.acceptsAll(
            Arrays.asList("O", "offline"),
            "Offline-mode. Ignores 'password' and 'account-list' (will "
                + "generate random usernames if 'username' is not supplied).");
    OptionSpec<?> autoRejoinOption =
        parser.acceptsAll(Arrays.asList("a", "auto-rejoin"), "Auto-rejoin a server on disconnect.");
    OptionSpec<Integer> loginDelayOption =
        parser
            .acceptsAll(
                Arrays.asList("d", "login-delay"),
                "Delay between bot joins, in milliseconds. 5000 is "
                    + "recommended if not using socks proxies.")
            .withRequiredArg()
            .describedAs("delay")
            .ofType(Integer.class);
    OptionSpec<Integer> botAmountOption =
        parser
            .acceptsAll(
                Arrays.asList("b", "bot-amount"),
                "Amount of bots to join. Must be <= amount of accounts.")
            .withRequiredArg()
            .describedAs("amount")
            .ofType(Integer.class);

    OptionSpec<String> accountListOption =
        parser
            .accepts(
                "account-list",
                "File containing a list of accounts, in username/email:password format.")
            .withRequiredArg()
            .describedAs("file");
    OptionSpec<String> socksProxyListOption =
        parser
            .accepts(
                "socks-proxy-list",
                "File containing a list of SOCKS proxies, in address:port format.")
            .withRequiredArg()
            .describedAs("file");
    OptionSpec<String> httpProxyListOption =
        parser
            .accepts(
                "http-proxy-list",
                "File containing a list of HTTP proxies, in address:port format.")
            .withRequiredArg()
            .describedAs("file");

    OptionSet options;
    try {
      options = parser.parse(args);
    } catch (OptionException exception) {
      try {
        parser.printHelpOn(System.out);
      } catch (Exception exception1) {
        exception1.printStackTrace();
      }
      return;
    }

    if (options.has("help")) {
      printHelp(parser);
      return;
    }

    final boolean offline = options.has(offlineOption);
    final boolean autoRejoin = options.has(autoRejoinOption);

    final List<String> accounts;
    if (options.has(accountListOption)) {
      accounts = loadAccounts(options.valueOf(accountListOption));
    } else if (!offline) {
      System.out.println("Option 'accounts' must be supplied in " + "absence of option 'offline'.");
      printHelp(parser);
      return;
    } else accounts = null;

    final String server;
    if (!options.has(serverOption)) {
      System.out.println("Option 'server' required.");
      printHelp(parser);
      return;
    } else server = options.valueOf(serverOption);

    final String owner;
    if (!options.has(ownerOption)) {
      System.out.println("Option 'owner' required.");
      printHelp(parser);
      return;
    } else owner = options.valueOf(ownerOption);

    final List<String> socksProxies;
    if (options.has(socksProxyListOption))
      socksProxies = loadProxies(options.valueOf(socksProxyListOption));
    else socksProxies = null;
    final boolean useProxy = socksProxies != null;

    final List<String> httpProxies;
    if (options.has(httpProxyListOption))
      httpProxies = loadLoginProxies(options.valueOf(httpProxyListOption));
    else if (!offline && accounts != null) {
      System.out.println(
          "Option 'http-proxy-list' required if " + "option 'account-list' is supplied.");
      printHelp(parser);
      return;
    } else httpProxies = null;

    final int loginDelay;
    if (options.has(loginDelayOption)) loginDelay = options.valueOf(loginDelayOption);
    else loginDelay = 0;

    final int botAmount;
    if (!options.has(botAmountOption)) {
      System.out.println("Option 'bot-amount' required.");
      printHelp(parser);
      return;
    } else botAmount = options.valueOf(botAmountOption);

    initGui();
    while (!sessions.get()) {
      synchronized (sessions) {
        try {
          sessions.wait(5000);
        } catch (InterruptedException exception) {
        }
      }
    }

    final Queue<Runnable> lockQueue = new ArrayDeque<Runnable>();

    ExecutorService service = Executors.newFixedThreadPool(botAmount + (loginDelay > 0 ? 1 : 0));
    final Object firstWait = new Object();
    if (loginDelay > 0) {
      service.execute(
          new Runnable() {
            @Override
            public void run() {
              synchronized (firstWait) {
                try {
                  firstWait.wait();
                } catch (InterruptedException exception) {
                }
              }
              while (true) {
                if (die) return;
                while (slotsTaken.get() >= 2) {
                  synchronized (slotsTaken) {
                    try {
                      slotsTaken.wait(500);
                    } catch (InterruptedException exception) {
                    }
                  }
                }
                synchronized (lockQueue) {
                  if (lockQueue.size() > 0) {
                    Runnable thread = lockQueue.poll();
                    synchronized (thread) {
                      thread.notifyAll();
                    }
                    lockQueue.offer(thread);
                  } else continue;
                }
                try {
                  Thread.sleep(loginDelay);
                } catch (InterruptedException exception) {
                }
                while (!sessions.get()) {
                  synchronized (sessions) {
                    try {
                      sessions.wait(5000);
                    } catch (InterruptedException exception) {
                    }
                  }
                }
              }
            }
          });
    }
    final List<String> accountsInUse = new ArrayList<String>();
    for (int i = 0; i < botAmount; i++) {
      final int botNumber = i;
      Runnable runnable =
          new Runnable() {
            @Override
            public void run() {
              if (loginDelay > 0)
                synchronized (lockQueue) {
                  lockQueue.add(this);
                }
              Random random = new Random();

              if (!offline) {
                boolean authenticated = false;
                user:
                while (true) {
                  if (authenticated) {
                    authenticated = false;
                    sessionCount.decrementAndGet();
                  }
                  Session session = null;
                  String loginProxy;
                  String account = accounts.get(random.nextInt(accounts.size()));
                  synchronized (accountsInUse) {
                    if (accountsInUse.size() == accounts.size()) System.exit(0);
                    while (accountsInUse.contains(account))
                      account = accounts.get(random.nextInt(accounts.size()));
                    accountsInUse.add(account);
                  }
                  String[] accountParts = account.split(":");
                  while (true) {
                    while (!sessions.get()) {
                      synchronized (sessions) {
                        try {
                          sessions.wait(5000);
                        } catch (InterruptedException exception) {
                        }
                      }
                    }
                    loginProxy = httpProxies.get(random.nextInt(httpProxies.size()));
                    try {
                      session = Util.retrieveSession(accountParts[0], accountParts[1], loginProxy);
                      // addAccount(session);
                      sessionCount.incrementAndGet();
                      authenticated = true;
                      break;
                    } catch (AuthenticationException exception) {
                      System.err.println("[Bot" + botNumber + "] " + exception);
                      if (!exception.getMessage().startsWith("Exception"))
                        // && !exception.getMessage().equals(
                        // "Too many failed logins"))
                        continue user;
                    }
                  }
                  System.out.println(
                      "["
                          + session.getUsername()
                          + "] Password: "******", Session ID: "
                          + session.getSessionId());
                  while (!joins.get()) {
                    synchronized (joins) {
                      try {
                        joins.wait(5000);
                      } catch (InterruptedException exception) {
                      }
                    }
                  }
                  if (loginDelay > 0) {
                    synchronized (this) {
                      try {
                        synchronized (firstWait) {
                          firstWait.notifyAll();
                        }
                        wait();
                      } catch (InterruptedException exception) {
                      }
                    }
                  }

                  while (true) {
                    String proxy =
                        useProxy ? socksProxies.get(random.nextInt(socksProxies.size())) : null;
                    try {
                      new DarkBotMCSpambot(
                          DARK_BOT,
                          server,
                          session.getUsername(),
                          session.getPassword(),
                          session.getSessionId(),
                          null,
                          proxy,
                          owner);
                      if (die) break user;
                      else if (!autoRejoin) break;
                    } catch (Exception exception) {
                      exception.printStackTrace();
                      System.out.println(
                          "["
                              + session.getUsername()
                              + "] Error connecting: "
                              + exception.getCause().toString());
                    }
                  }
                  System.out.println("[" + session.getUsername() + "] Account failed");
                }
              } else {
                while (true) {
                  String proxy =
                      useProxy ? socksProxies.get(random.nextInt(socksProxies.size())) : null;
                  try {
                    String username = "";
                    if (accounts != null) {
                      username = accounts.get(random.nextInt(accounts.size())).split(":")[0];
                      synchronized (accountsInUse) {
                        while (accountsInUse.contains(username))
                          username = accounts.get(random.nextInt(accounts.size()));
                        accountsInUse.add(username);
                      }
                    } else
                      for (int i = 0; i < 10 + random.nextInt(6); i++)
                        username += alphas[random.nextInt(alphas.length)];
                    if (loginDelay > 0) {
                      synchronized (this) {
                        try {
                          synchronized (firstWait) {
                            firstWait.notifyAll();
                          }
                          wait();
                        } catch (InterruptedException exception) {
                        }
                      }
                    }
                    new DarkBotMCSpambot(DARK_BOT, server, username, "", "", null, proxy, owner);
                    if (die || !autoRejoin) break;
                    else continue;
                  } catch (Exception exception) {
                    System.out.println(
                        "[Bot" + botNumber + "] Error connecting: " + exception.toString());
                  }
                }
              }
            }
          };
      service.execute(runnable);
    }
    service.shutdown();
    while (!service.isTerminated()) {
      try {
        service.awaitTermination(9000, TimeUnit.DAYS);
      } catch (InterruptedException exception) {
        exception.printStackTrace();
      }
    }
    System.exit(0);
  }
 public void clearEntry() {
   Arrays.fill(vals, null);
 }