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This artifact provides a single jar that contains all classes required to use remote EJB and JMS, including all dependencies. It is intended for use by those not using maven, maven users should just import the EJB and JMS BOM's instead (shaded JAR's cause lots of problems with maven, as it is very easy to inadvertently end up with different versions on classes on the class path).

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package org.jgroups.util;


import java.util.concurrent.Future;
import java.util.concurrent.TimeUnit;



/**
 * Timer-like interface which allows for execution of tasks. Taks can be executed
 * 
    *
  • one time only *
  • at recurring time intervals. Intervals can be fixed-delay or fixed-rate, * see {@link java.util.concurrent.ScheduledExecutorService} for details *
  • dynamic; at the end of the task execution, a task is asked what the next execution time should be. To do this, * method {@link org.jgroups.util.TimeScheduler.Task#nextInterval()} needs to be implemented. *
* * @author Bela Ban */ public interface TimeScheduler { /** The interface that dynamic tasks * ({@link TimeScheduler#scheduleWithDynamicInterval(org.jgroups.util.TimeScheduler.Task)}) must implement */ interface Task extends Runnable { /** @return the next scheduled interval in ms. If <= 0 the task will not be re-scheduled */ long nextInterval(); } /** * Executes command with zero required delay. This has effect equivalent to schedule(command, 0, anyUnit). * * @param command the task to execute * @throws java.util.concurrent.RejectedExecutionException at discretion of RejectedExecutionHandler, * if task cannot be accepted for execution because the executor has been shut down. * @throws NullPointerException if command is null */ default void execute(Runnable command) {execute(command, true);} void execute(Runnable command, boolean can_block); /** * Creates and executes a one-shot action that becomes enabled after the given delay. * * @param command the task to execute * @param delay the time from now to delay execution * @param unit the time unit of the delay parameter * @return a ScheduledFuture representing pending completion of the task and whose get() method * will return null upon completion * @throws java.util.concurrent.RejectedExecutionException if the task cannot be scheduled for execution * @throws NullPointerException if command is null */ default Future schedule(Runnable command, long delay, TimeUnit unit) {return schedule(command, delay, unit, true);} Future schedule(Runnable command, long delay, TimeUnit unit, boolean can_block); /** * Creates and executes a periodic action that becomes enabled first after the given initial delay, and * subsequently with the given delay between the termination of one execution and the commencement of the next. * If any execution of the task encounters an exception, subsequent executions are suppressed. * Otherwise, the task will only terminate via cancellation or termination of the executor. * * @param command the task to execute * @param initialDelay the time to delay first execution * @param delay the delay between the termination of one execution and the commencement of the next * @param unit the time unit of the initialDelay and delay parameters * @return a ScheduledFuture representing pending completion of the task, and whose get() * method will throw an exception upon cancellation * @throws java.util.concurrent.RejectedExecutionException if the task cannot be scheduled for execution * @throws NullPointerException if command is null * @throws IllegalArgumentException if delay less than or equal to zero */ default Future scheduleWithFixedDelay(Runnable command, long initialDelay, long delay, TimeUnit unit) { return scheduleWithFixedDelay(command, initialDelay, delay, unit, true); } Future scheduleWithFixedDelay(Runnable command, long initialDelay, long delay, TimeUnit unit, boolean can_block); /** * Creates and executes a periodic action that becomes enabled first * after the given initial delay, and subsequently with the given * period; that is executions will commence after * initialDelay then initialDelay+period, then * initialDelay + 2 * period, and so on. * If any execution of the task * encounters an exception, subsequent executions are suppressed. * Otherwise, the task will only terminate via cancellation or * termination of the executor. If any execution of this task * takes longer than its period, then subsequent executions * may start late, but will not concurrently execute. * * @param command the task to execute * @param initialDelay the time to delay first execution * @param period the period between successive executions * @param unit the time unit of the initialDelay and period parameters * @return a ScheduledFuture representing pending completion of * the task, and whose get() method will throw an * exception upon cancellation * @throws java.util.concurrent.RejectedExecutionException if the task cannot be * scheduled for execution * @throws NullPointerException if command is null * @throws IllegalArgumentException if period less than or equal to zero */ default Future scheduleAtFixedRate(Runnable command, long initialDelay, long period, TimeUnit unit) { return scheduleAtFixedRate(command, initialDelay, period, unit, true); } Future scheduleAtFixedRate(Runnable command, long initialDelay, long period, TimeUnit unit, boolean can_block); /** * Schedule a task for execution at varying intervals. After execution, the task will get rescheduled after * {@link org.jgroups.util.TimeScheduler.Task#nextInterval()} milliseconds. This is delay-based and not * rate-based. * The task is never done until nextInterval() return a value <= 0 or the task is cancelled. * @param task the task to execute */ default Future scheduleWithDynamicInterval(Task task) { return scheduleWithDynamicInterval(task, true); } Future scheduleWithDynamicInterval(Task task, boolean can_block); void setThreadFactory(ThreadFactory factory); /** * Returns a list of tasks currently waiting for execution. If there are a lot of tasks, the returned string * should probably only return the number of tasks rather than a full dump. * @return */ String dumpTimerTasks(); void removeCancelledTasks(); /** * Returns the configured core threads, or -1 if not applicable * @return */ int getMinThreads(); /** Sets the core pool size. Can be ignored if not applicable */ void setMinThreads(int size); /** * Returns the configured max threads, or -1 if not applicable * @return */ int getMaxThreads(); /** Sets the max pool size. Can be ignored if not applicable */ void setMaxThreads(int size); /** Returns the keep alive time (in ms) of the thread pool, or -1 if not applicable */ long getKeepAliveTime(); /** Sets the keep alive time (in ms) of the thread pool. Can be ignored if not applicable */ void setKeepAliveTime(long time); /** * Returns the current threads in the pool, or -1 if not applicable * @return */ int getCurrentThreads(); boolean getNonBlockingTaskHandling(); void setNonBlockingTaskHandling(boolean b); /** * Returns the number of tasks currently in the queue. * @return The number of tasks currently in the queue. */ int size(); /** Starts the runner thread */ void start(); /** Stops the scheduler if running, cancelling all pending tasks */ void stop(); /** Returns true if stop() has been called, false otherwise */ boolean isShutdown(); }




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