Class Service<V>

java.lang.Object
javafx.concurrent.Service<V>
Type Parameters:
V - the type of object returned by the Service
All Implemented Interfaces:
Worker<V>, EventTarget
Direct Known Subclasses:
ScheduledService

public abstract class Service<V> extends Object implements Worker<V>, EventTarget

A Service is a non-visual component encapsulating the information required to perform some work on one or more background threads. As part of the JavaFX UI library, the Service knows about the JavaFX Application thread and is designed to relieve the application developer from the burden of managing multithreaded code that interacts with the user interface. As such, all of the methods and state on the Service are intended to be invoked exclusively from the JavaFX Application thread. The only exception to this, is when initially configuring a Service, which may safely be done from any thread, and initially starting a Service, which may also safely be done from any thread. However, once the Service has been initialized and started, it may only thereafter be used from the FX thread.

A Service creates and manages a Task that performs the work on the background thread. Service implements Worker. As such, you can observe the state of the background task and optionally cancel it. Service is a reusable Worker, meaning that it can be reset and restarted. Due to this, a Service can be constructed declaratively and restarted on demand. Once a Service is started, it will schedule its Task and listen for changes to the state of the Task. A Task does not hold a reference to the Service that started it, meaning that a running Task will not prevent the Service from being garbage collected.

If an Executor is specified on the Service, then it will be used to actually execute the service. Otherwise, a daemon thread will be created and executed. If you wish to create non-daemon threads, then specify a custom Executor (for example, you could use a ThreadPoolExecutor with a custom ThreadFactory).

Because a Service is intended to simplify declarative use cases, subclasses should expose as properties the input parameters to the work to be done. For example, suppose I wanted to write a Service which read the first line from any URL and returned it as a String. Such a Service might be defined, such that it had a single property, url. It might be implemented as:


     public static class FirstLineService extends Service<String> {
         private StringProperty url = new SimpleStringProperty(this, "url");
         public final void setUrl(String value) { url.set(value); }
         public final String getUrl() { return url.get(); }
         public final StringProperty urlProperty() { return url; }

         protected Task createTask() {
             final String _url = getUrl();
             return new Task<String>() {
                 protected String call() throws Exception {
                     URL u = new URL(_url);
                     BufferedReader in = new BufferedReader(
                             new InputStreamReader(u.openStream()));
                     String result = in.readLine();
                     in.close();
                     return result;
                 }
             };
         }
     }
     

The Service by default uses a thread pool Executor with some unspecified default or maximum thread pool size. This is done so that naive code will not completely swamp the system by creating thousands of Threads.

Since:
JavaFX 2.0
  • Property Details

  • Constructor Details

    • Service

      protected Service()
      Create a new Service.
  • Method Details

    • getState

      public final Worker.State getState()
      Gets the value of the property state.
      Specified by:
      getState in interface Worker<V>
      Property description:
      Returns:
      The current state of this Worker
    • stateProperty

      public final ReadOnlyObjectProperty<Worker.State> stateProperty()
      Description copied from interface: Worker
      Gets the ReadOnlyObjectProperty representing the current state.
      Specified by:
      stateProperty in interface Worker<V>
      Returns:
      The property representing the state
      See Also:
    • getValue

      public final V getValue()
      Gets the value of the property value.
      Specified by:
      getValue in interface Worker<V>
      Property description:
      Returns:
      the current value of this Worker
    • valueProperty

      public final ReadOnlyObjectProperty<V> valueProperty()
      Description copied from interface: Worker
      Gets the ReadOnlyObjectProperty representing the value.
      Specified by:
      valueProperty in interface Worker<V>
      Returns:
      The property representing the current value
      See Also:
    • getException

      public final Throwable getException()
      Gets the value of the property exception.
      Specified by:
      getException in interface Worker<V>
      Property description:
      Returns:
      the exception, if one occurred
    • exceptionProperty

      public final ReadOnlyObjectProperty<Throwable> exceptionProperty()
      Description copied from interface: Worker
      Gets the ReadOnlyObjectProperty representing any exception which occurred.
      Specified by:
      exceptionProperty in interface Worker<V>
      Returns:
      the property representing the exception
      See Also:
    • getWorkDone

      public final double getWorkDone()
      Gets the value of the property workDone.
      Specified by:
      getWorkDone in interface Worker<V>
      Property description:
      Returns:
      the amount of work done
      See Also:
    • workDoneProperty

      public final ReadOnlyDoubleProperty workDoneProperty()
      Description copied from interface: Worker
      Gets the ReadOnlyDoubleProperty representing the current progress.
      Specified by:
      workDoneProperty in interface Worker<V>
      Returns:
      The property representing the amount of work done
      See Also:
    • getTotalWork

      public final double getTotalWork()
      Gets the value of the property totalWork.
      Specified by:
      getTotalWork in interface Worker<V>
      Property description:
      Returns:
      the total work to be done
      See Also:
    • totalWorkProperty

      public final ReadOnlyDoubleProperty totalWorkProperty()
      Description copied from interface: Worker
      Gets the ReadOnlyDoubleProperty representing the maximum amount of work that needs to be done. These "work units" have meaning to the Worker implementation, such as the number of bytes that need to be downloaded or the number of images to process or some other such metric.
      Specified by:
      totalWorkProperty in interface Worker<V>
      Returns:
      the property representing the total work to be done
      See Also:
    • getProgress

      public final double getProgress()
      Gets the value of the property progress.
      Specified by:
      getProgress in interface Worker<V>
      Property description:
      Returns:
      the current progress
      See Also:
    • progressProperty

      public final ReadOnlyDoubleProperty progressProperty()
      Description copied from interface: Worker
      Gets the ReadOnlyDoubleProperty representing the progress.
      Specified by:
      progressProperty in interface Worker<V>
      Returns:
      the property representing the progress
      See Also:
    • isRunning

      public final boolean isRunning()
      Gets the value of the property running.
      Specified by:
      isRunning in interface Worker<V>
      Property description:
      Returns:
      true if this Worker is running
    • runningProperty

      public final ReadOnlyBooleanProperty runningProperty()
      Description copied from interface: Worker
      Gets the ReadOnlyBooleanProperty representing whether the Worker is running.
      Specified by:
      runningProperty in interface Worker<V>
      Returns:
      the property representing whether the worker is running
      See Also:
    • getMessage

      public final String getMessage()
      Gets the value of the property message.
      Specified by:
      getMessage in interface Worker<V>
      Property description:
      Returns:
      the current message
    • messageProperty

      public final ReadOnlyStringProperty messageProperty()
      Description copied from interface: Worker
      Gets the ReadOnlyStringProperty representing the message.
      Specified by:
      messageProperty in interface Worker<V>
      Returns:
      a property representing the current message
      See Also:
    • getTitle

      public final String getTitle()
      Gets the value of the property title.
      Specified by:
      getTitle in interface Worker<V>
      Property description:
      Returns:
      the current title
    • titleProperty

      public final ReadOnlyStringProperty titleProperty()
      Description copied from interface: Worker
      Gets the ReadOnlyStringProperty representing the title.
      Specified by:
      titleProperty in interface Worker<V>
      Returns:
      the property representing the current title
      See Also:
    • setExecutor

      public final void setExecutor(Executor value)
      Sets the value of the property executor.
      Property description:
      The executor to use for running this Service. If no executor is specified, then a new daemon thread will be created and used for running the Service using some default executor.
    • getExecutor

      public final Executor getExecutor()
      Gets the value of the property executor.
      Property description:
      The executor to use for running this Service. If no executor is specified, then a new daemon thread will be created and used for running the Service using some default executor.
    • executorProperty

      public final ObjectProperty<Executor> executorProperty()
      The executor to use for running this Service. If no executor is specified, then a new daemon thread will be created and used for running the Service using some default executor.
      See Also:
    • onReadyProperty

      public final ObjectProperty<EventHandler<WorkerStateEvent>> onReadyProperty()
      The onReady event handler is called whenever the Task state transitions to the READY state.
      Since:
      JavaFX 2.1
      See Also:
    • getOnReady

      public final EventHandler<WorkerStateEvent> getOnReady()
      The onReady event handler is called whenever the Task state transitions to the READY state.
      Returns:
      the onReady event handler, if any
      Since:
      JavaFX 2.1
    • setOnReady

      public final void setOnReady(EventHandler<WorkerStateEvent> value)
      The onReady event handler is called whenever the Task state transitions to the READY state.
      Parameters:
      value - the event handler, can be null to clear it
      Since:
      JavaFX 2.1
    • ready

      protected void ready()
      A protected convenience method for subclasses, called whenever the state of the Service has transitioned to the READY state. This method is invoked after the Service has been fully transitioned to the new state.
      Since:
      JavaFX 2.1
    • onScheduledProperty

      public final ObjectProperty<EventHandler<WorkerStateEvent>> onScheduledProperty()
      The onSchedule event handler is called whenever the Task state transitions to the SCHEDULED state.
      Since:
      JavaFX 2.1
      See Also:
    • getOnScheduled

      public final EventHandler<WorkerStateEvent> getOnScheduled()
      The onSchedule event handler is called whenever the Task state transitions to the SCHEDULED state.
      Returns:
      the onScheduled event handler, if any
      Since:
      JavaFX 2.1
    • setOnScheduled

      public final void setOnScheduled(EventHandler<WorkerStateEvent> value)
      The onSchedule event handler is called whenever the Task state transitions to the SCHEDULED state.
      Parameters:
      value - the event handler, can be null to clear it
      Since:
      JavaFX 2.1
    • scheduled

      protected void scheduled()
      A protected convenience method for subclasses, called whenever the state of the Service has transitioned to the SCHEDULED state. This method is invoked after the Service has been fully transitioned to the new state.
      Since:
      JavaFX 2.1
    • onRunningProperty

      public final ObjectProperty<EventHandler<WorkerStateEvent>> onRunningProperty()
      The onRunning event handler is called whenever the Task state transitions to the RUNNING state.
      Since:
      JavaFX 2.1
      See Also:
    • getOnRunning

      public final EventHandler<WorkerStateEvent> getOnRunning()
      The onRunning event handler is called whenever the Task state transitions to the RUNNING state.
      Returns:
      the onRunning event handler, if any
      Since:
      JavaFX 2.1
    • setOnRunning

      public final void setOnRunning(EventHandler<WorkerStateEvent> value)
      The onRunning event handler is called whenever the Task state transitions to the RUNNING state.
      Parameters:
      value - the event handler, can be null to clear it
      Since:
      JavaFX 2.1
    • running

      protected void running()
      A protected convenience method for subclasses, called whenever the state of the Service has transitioned to the RUNNING state. This method is invoked after the Service has been fully transitioned to the new state.
      Since:
      JavaFX 2.1
    • onSucceededProperty

      public final ObjectProperty<EventHandler<WorkerStateEvent>> onSucceededProperty()
      The onSucceeded event handler is called whenever the Task state transitions to the SUCCEEDED state.
      Since:
      JavaFX 2.1
      See Also:
    • getOnSucceeded

      public final EventHandler<WorkerStateEvent> getOnSucceeded()
      The onSucceeded event handler is called whenever the Task state transitions to the SUCCEEDED state.
      Returns:
      the onSucceeded event handler, if any
      Since:
      JavaFX 2.1
    • setOnSucceeded

      public final void setOnSucceeded(EventHandler<WorkerStateEvent> value)
      The onSucceeded event handler is called whenever the Task state transitions to the SUCCEEDED state.
      Parameters:
      value - the event handler, can be null to clear it
      Since:
      JavaFX 2.1
    • succeeded

      protected void succeeded()
      A protected convenience method for subclasses, called whenever the state of the Service has transitioned to the SUCCEEDED state. This method is invoked after the Service has been fully transitioned to the new state.
      Since:
      JavaFX 2.1
    • onCancelledProperty

      public final ObjectProperty<EventHandler<WorkerStateEvent>> onCancelledProperty()
      The onCancelled event handler is called whenever the Task state transitions to the CANCELLED state.
      Since:
      JavaFX 2.1
      See Also:
    • getOnCancelled

      public final EventHandler<WorkerStateEvent> getOnCancelled()
      The onCancelled event handler is called whenever the Task state transitions to the CANCELLED state.
      Returns:
      the onCancelled event handler, if any
      Since:
      JavaFX 2.1
    • setOnCancelled

      public final void setOnCancelled(EventHandler<WorkerStateEvent> value)
      The onCancelled event handler is called whenever the Task state transitions to the CANCELLED state.
      Parameters:
      value - the event handler, can be null to clear it
      Since:
      JavaFX 2.1
    • cancelled

      protected void cancelled()
      A protected convenience method for subclasses, called whenever the state of the Service has transitioned to the CANCELLED state. This method is invoked after the Service has been fully transitioned to the new state.
      Since:
      JavaFX 2.1
    • onFailedProperty

      public final ObjectProperty<EventHandler<WorkerStateEvent>> onFailedProperty()
      The onFailed event handler is called whenever the Task state transitions to the FAILED state.
      Since:
      JavaFX 2.1
      See Also:
    • getOnFailed

      public final EventHandler<WorkerStateEvent> getOnFailed()
      The onFailed event handler is called whenever the Task state transitions to the FAILED state.
      Returns:
      the onFailed event handler, if any
      Since:
      JavaFX 2.1
    • setOnFailed

      public final void setOnFailed(EventHandler<WorkerStateEvent> value)
      The onFailed event handler is called whenever the Task state transitions to the FAILED state.
      Parameters:
      value - the event handler, can be null to clear it
      Since:
      JavaFX 2.1
    • failed

      protected void failed()
      A protected convenience method for subclasses, called whenever the state of the Service has transitioned to the FAILED state. This method is invoked after the Service has been fully transitioned to the new state.
      Since:
      JavaFX 2.1
    • cancel

      public boolean cancel()
      Cancels any currently running Task, if any. The state will be set to CANCELLED.
      Specified by:
      cancel in interface Worker<V>
      Returns:
      returns true if the cancel was successful
    • restart

      public void restart()
      Cancels any currently running Task, if any, and restarts this Service. The state will be reset to READY prior to execution. This method should only be called on the FX application thread.
    • reset

      public void reset()
      Resets the Service. May only be called while in one of the finish states, that is, SUCCEEDED, FAILED, or CANCELLED, or when READY. This method should only be called on the FX application thread.
    • start

      public void start()
      Starts this Service. The Service must be in the READY state to succeed in this call. This method should only be called on the FX application thread.
    • executeTask

      protected void executeTask(Task<V> task)

      Uses the executor defined on this Service to execute the given task. If the executor is null, then a default executor is used which will create a new daemon thread on which to execute this task.

      This method is intended only to be called by the Service implementation.

      Parameters:
      task - a non-null task to execute
      Since:
      JavaFX 2.1
    • addEventHandler

      public final <T extends Event> void addEventHandler(EventType<T> eventType, EventHandler<? super T> eventHandler)
      Registers an event handler to this task. Any event filters are first processed, then the specified onFoo event handlers, and finally any event handlers registered by this method. As with other events in the scene graph, if an event is consumed, it will not continue dispatching.
      Type Parameters:
      T - the specific event class of the handler
      Parameters:
      eventType - the type of the events to receive by the handler
      eventHandler - the handler to register
      Throws:
      NullPointerException - if the event type or handler is null
      Since:
      JavaFX 2.1
    • removeEventHandler

      public final <T extends Event> void removeEventHandler(EventType<T> eventType, EventHandler<? super T> eventHandler)
      Unregisters a previously registered event handler from this task. One handler might have been registered for different event types, so the caller needs to specify the particular event type from which to unregister the handler.
      Type Parameters:
      T - the specific event class of the handler
      Parameters:
      eventType - the event type from which to unregister
      eventHandler - the handler to unregister
      Throws:
      NullPointerException - if the event type or handler is null
      Since:
      JavaFX 2.1
    • addEventFilter

      public final <T extends Event> void addEventFilter(EventType<T> eventType, EventHandler<? super T> eventFilter)
      Registers an event filter to this task. Registered event filters get an event before any associated event handlers.
      Type Parameters:
      T - the specific event class of the filter
      Parameters:
      eventType - the type of the events to receive by the filter
      eventFilter - the filter to register
      Throws:
      NullPointerException - if the event type or filter is null
      Since:
      JavaFX 2.1
    • removeEventFilter

      public final <T extends Event> void removeEventFilter(EventType<T> eventType, EventHandler<? super T> eventFilter)
      Unregisters a previously registered event filter from this task. One filter might have been registered for different event types, so the caller needs to specify the particular event type from which to unregister the filter.
      Type Parameters:
      T - the specific event class of the filter
      Parameters:
      eventType - the event type from which to unregister
      eventFilter - the filter to unregister
      Throws:
      NullPointerException - if the event type or filter is null
      Since:
      JavaFX 2.1
    • setEventHandler

      protected final <T extends Event> void setEventHandler(EventType<T> eventType, EventHandler<? super T> eventHandler)
      Sets the handler to use for this event type. There can only be one such handler specified at a time. This handler is guaranteed to be called first. This is used for registering the user-defined onFoo event handlers.
      Type Parameters:
      T - the specific event class of the handler
      Parameters:
      eventType - the event type to associate with the given eventHandler
      eventHandler - the handler to register, or null to unregister
      Throws:
      NullPointerException - if the event type is null
      Since:
      JavaFX 2.1
    • fireEvent

      protected final void fireEvent(Event event)
      Fires the specified event. Any event filter encountered will be notified and can consume the event. If not consumed by the filters, the event handlers on this task are notified. If these don't consume the event either, then all event handlers are called and can consume the event.

      This method must be called on the FX user thread.

      Parameters:
      event - the event to fire
      Since:
      JavaFX 2.1
    • buildEventDispatchChain

      public EventDispatchChain buildEventDispatchChain(EventDispatchChain tail)
      Description copied from interface: EventTarget
      Construct an event dispatch chain for this target. The event dispatch chain contains event dispatchers which might be interested in processing of events targeted at this EventTarget. This event target is not automatically added to the chain, so if it wants to process events, it needs to add an EventDispatcher for itself to the chain.

      In the case the event target is part of some hierarchy, the chain for it is usually built from event dispatchers collected from the root of the hierarchy to the event target.

      The event dispatch chain is constructed by modifications to the provided initial event dispatch chain. The returned chain should have the initial chain at its end so the dispatchers should be prepended to the initial chain.

      The caller shouldn't assume that the initial chain remains unchanged nor that the returned value will reference a different chain.

      Specified by:
      buildEventDispatchChain in interface EventTarget
      Parameters:
      tail - the initial chain to build from
      Returns:
      the resulting event dispatch chain for this target
    • createTask

      protected abstract Task<V> createTask()
      Invoked after the Service is started on the JavaFX Application Thread. Implementations should save off any state into final variables prior to creating the Task, since accessing properties defined on the Service within the background thread code of the Task will result in exceptions. For example:
      
           protected Task createTask() {
               final String url = myService.getUrl();
               return new Task<String>() {
                   protected String call() {
                       URL u = new URL("http://www.oracle.com");
                       BufferedReader in = new BufferedReader(
                               new InputStreamReader(u.openStream()));
                       String result = in.readLine();
                       in.close();
                       return result;
                   }
               }
           }
       

      If the Task is a pre-defined class (as opposed to being an anonymous class), and if it followed the recommended best-practice, then there is no need to save off state prior to constructing the Task since its state is completely provided in its constructor.

      
           protected Task createTask() {
               // This is safe because getUrl is called on the FX Application
               // Thread and the FirstLineReaderTasks stores it as an
               // immutable property
               return new FirstLineReaderTask(myService.getUrl());
           }
       
      Returns:
      the Task to execute