コード例 #1
0
 private Comparator<StrBean> getComparator(SortOrder<String> so) {
   Comparator<StrBean> comparator = propertyToComparatorMap.get(so.getSorted());
   if (so.getDirection() == SortDirection.DESCENDING) {
     comparator = comparator.reversed();
   }
   return comparator;
 }
コード例 #2
0
  public static void main(String[] arg) {
    Comparator<Person> comparator = (p1, p2) -> p1.firstName.compareTo(p2.firstName);

    Person p1 = new Person("John", "Doe");
    Person p2 = new Person("Alice", "Wonderland");

    System.out.println(comparator.compare(p1, p2));
    System.out.println(comparator.reversed().compare(p1, p2));
  }
コード例 #3
0
ファイル: TextReporter.java プロジェクト: saniul/caffeine
 /** Returns a comparator that sorts by the specified column. */
 private Comparator<PolicyStats> comparator() {
   Comparator<PolicyStats> comparator = makeComparator();
   return settings.report().ascending() ? comparator : comparator.reversed();
 }
コード例 #4
0
 /**
  * Sort a given list of VMs by descending order of CPU utilization.
  *
  * @param vmList the vm list to be sorted
  * @param currentSimulationTime the current simulation time to get the current CPU utilization for
  *     each Vm
  */
 public static void sortByCpuUtilization(List<? extends Vm> vmList, double currentSimulationTime) {
   Comparator<Vm> comparator =
       Comparator.comparingDouble(vm -> vm.getTotalUtilizationOfCpuMips(currentSimulationTime));
   vmList.sort(comparator.reversed());
 }
コード例 #5
0
 @Override
 public <T> T maximum(int threads, List<T> list, Comparator<T> comparator)
     throws InterruptedException {
   return minimum(threads, list, comparator.reversed());
 }
コード例 #6
0
ファイル: JenaSystem.java プロジェクト: apache/jena
/**
 * Jena "system" - simple controls for ensuring components are loaded and initialized.
 *
 * <p>All initialization should be concurrent and thread-safe. In particular, some subsystems need
 * initialization in some sort of order (e.g. ARQ before TDB).
 *
 * <p>This is achieved by "levels": levels less than 100 are considered "jena system levels" and are
 * reserved.
 *
 * <ul>
 *   <li>0 - reserved
 *   <li>10 - jena-core
 *   <li>20 - RIOT
 *   <li>30 - ARQ
 *   <li>40 - TDB
 *   <li>9999 - other
 * </ul>
 *
 * See also the <a
 * href="http://jena.apache.org/documentation/notes/system-initialization.html">notes on Jena
 * initialization</a>.
 */
public class JenaSystem {

  /**
   * Development support - flag to enable output during initialization. Output to {@code
   * System.err}, not a logger to avoid the risk of recursive initialization.
   */
  public static boolean DEBUG_INIT = false;

  // A correct way to manage without synchonized using the double checked locking pattern.
  //   http://en.wikipedia.org/wiki/Double-checked_locking
  //   http://www.cs.umd.edu/~pugh/java/memoryModel/DoubleCheckedLocking.html
  private static volatile boolean initialized = false;
  private static Object initLock = new Object();

  /**
   * Initialize Jena.
   *
   * <p>This function is cheap to call when already initialized so can be called to be sure. A
   * commonly used idiom in jena is a static initializer in key classes.
   *
   * <p>By default, initialization happens by using {@code ServiceLoader.load} to find {@link
   * JenaSubsystemLifecycle} objects. See {@link #setSubsystemRegistry} to intercept that choice.
   */
  public static void init() {
    // Any other thread attempting to initialize as well will
    // first test the volatile outside the lock; if it's
    // not INITIALIZED, the thread will attempt to grab the lock
    // and hence wait, then see initialized as true.

    // But we need to cope with recursive calls of JenaSystem.init() as well.
    // The same thread will not stop at the lock.
    // Set initialized to true before a recursive call is possible
    // handles this.  The recursive call will see initialized true and
    // and returnn on the first test.

    // Net effect:
    // After a top level call of JenaSystem.init() returns, tjena has
    // finishes initialization.
    // Recursive calls do not have this property.

    if (initialized) return;
    synchronized (initLock) {
      if (initialized) {
        logLifecycle("JenaSystem.init - return");
        return;
      }
      // Catches recursive calls, same thread.
      initialized = true;
      logLifecycle("JenaSystem.init - start");

      if (get() == null) setSubsystemRegistry(new JenaSubsystemRegistryBasic());

      get().load();

      // Debug : what did we find?
      if (JenaSystem.DEBUG_INIT) {
        logLifecycle("Found:");
        get()
            .snapshot()
            .forEach(
                mod -> logLifecycle("  %-20s [%d]", mod.getClass().getSimpleName(), mod.level()));
      }

      get().add(new JenaInitLevel0());

      if (JenaSystem.DEBUG_INIT) {
        logLifecycle("Initialization sequence:");
        JenaSystem.forEach(
            module ->
                logLifecycle("  %-20s [%d]", module.getClass().getSimpleName(), module.level()));
      }

      JenaSystem.forEach(
          module -> {
            logLifecycle("Init: %s", module.getClass().getSimpleName());
            module.start();
          });
      logLifecycle("JenaSystem.init - finish");
    }
  }

  /** Shutdown subsystems */
  public static void shutdown() {
    if (!initialized) {
      logLifecycle("JenaSystem.shutdown - not initialized");
      return;
    }
    synchronized (initLock) {
      if (!initialized) {
        logLifecycle("JenaSystem.shutdown - return");
        return;
      }
      logLifecycle("JenaSystem.shutdown - start");
      JenaSystem.forEachReverse(
          module -> {
            logLifecycle("Stop: %s", module.getClass().getSimpleName());
            module.stop();
          });
      initialized = false;
      logLifecycle("JenaSystem.shutdown - finish");
    }
  }

  private static JenaSubsystemRegistry singleton = null;

  /**
   * Set the {@link JenaSubsystemRegistry}. To have any effect, this function must be called before
   * any other Jena code, and especially before calling {@code JenaSystem.init()}.
   */
  public static void setSubsystemRegistry(JenaSubsystemRegistry thing) {
    singleton = thing;
  }

  /** The current JenaSubsystemRegistry */
  public static JenaSubsystemRegistry get() {
    return singleton;
  }

  /**
   * Call an action on each item in the registry. Calls are made sequentially and in increasing
   * level order. The exact order within a level is not specified; it is not registration order.
   *
   * @param action
   */
  public static void forEach(Consumer<JenaSubsystemLifecycle> action) {
    forEach(action, comparator);
  }

  /**
   * Call an action on each item in the registry but in the reverse enumeration order. Calls are
   * made sequentially and in decreasing level order. The "reverse" is opposite order to {@link
   * #forEach}, which may not be stable within a level. It is not related to registration order.
   *
   * @param action
   */
  public static void forEachReverse(Consumer<JenaSubsystemLifecycle> action) {
    forEach(action, reverseComparator);
  }

  // Order by level (increasing)
  private static Comparator<JenaSubsystemLifecycle> comparator =
      (obj1, obj2) -> Integer.compare(obj1.level(), obj2.level());
  // Order by level (decreasing)
  private static Comparator<JenaSubsystemLifecycle> reverseComparator = comparator.reversed();

  private static synchronized void forEach(
      Consumer<JenaSubsystemLifecycle> action, Comparator<JenaSubsystemLifecycle> ordering) {
    List<JenaSubsystemLifecycle> x = get().snapshot();
    Collections.sort(x, ordering);
    x.forEach(action);
  }

  /** Output a debugging message if DEBUG_INIT is set */
  public static void logLifecycle(String fmt, Object... args) {
    if (!DEBUG_INIT) return;
    System.err.printf(fmt, args);
    System.err.println();
  }

  /**
   * The level 0 subsystem - inserted without using the Registry load function. There should be only
   * one such level 0 handler.
   */
  private static class JenaInitLevel0 implements JenaSubsystemLifecycle {
    private static Logger log = LoggerFactory.getLogger("Jena");

    @Override
    public void start() {
      log.debug("Jena initialization");
    }

    @Override
    public void stop() {
      log.debug("Jena shutdown");
    }

    @Override
    public int level() {
      return 0;
    }
  }
}