Serializable
public class Timer extends Object implements Serializable
ActionEvent
s at specified intervals. An example use is an animation object that uses a Timer
as the trigger for drawing its frames. Setting up a timer involves creating a Timer
object, registering one or more action listeners on it, and starting the timer using the start
method. For example, the following code creates and starts a timer that fires an action event once per second (as specified by the first argument to the Timer
constructor). The second argument to the Timer
constructor specifies a listener to receive the timer's action events.
int delay = 1000; //milliseconds ActionListener taskPerformer = new ActionListener() { public void actionPerformed(ActionEvent evt) { //...Perform a task... } }; new Timer(delay, taskPerformer).start();
Timers
are constructed by specifying both a delay parameter and an ActionListener
. The delay parameter is used to set both the initial delay and the delay between event firing, in milliseconds. Once the timer has been started, it waits for the initial delay before firing its first ActionEvent
to registered listeners. After this first event, it continues to fire events every time the between-event delay has elapsed, until it is stopped.
After construction, the initial delay and the between-event delay can be changed independently, and additional ActionListeners
may be added.
If you want the timer to fire only the first time and then stop, invoke setRepeats(false)
on the timer.
Although all Timer
s perform their waiting using a single, shared thread (created by the first Timer
object that executes), the action event handlers for Timer
s execute on another thread -- the event-dispatching thread. This means that the action handlers for Timer
s can safely perform operations on Swing components. However, it also means that the handlers must execute quickly to keep the GUI responsive.
In v 1.3, another Timer
class was added to the Java platform: java.util.Timer
. Both it and javax.swing.Timer
provide the same basic functionality, but java.util.Timer
is more general and has more features. The javax.swing.Timer
has two features that can make it a little easier to use with GUIs. First, its event handling metaphor is familiar to GUI programmers and can make dealing with the event-dispatching thread a bit simpler. Second, its automatic thread sharing means that you don't have to take special steps to avoid spawning too many threads. Instead, your timer uses the same thread used to make cursors blink, tool tips appear, and so on.
You can find further documentation and several examples of using timers by visiting How to Use Timers, a section in The Java Tutorial.
Warning: Serialized objects of this class will not be compatible with future Swing releases. The current serialization support is appropriate for short term storage or RMI between applications running the same version of Swing. As of 1.4, support for long term storage of all JavaBeans has been added to the java.beans
package. Please see XMLEncoder
.
Modifier and Type | Field | Description |
---|---|---|
protected EventListenerList |
listenerList |
The collection of registered listeners |
Constructor | Description |
---|---|
Timer |
Creates a Timer and initializes both the initial delay and between-event delay to delay milliseconds. |
Modifier and Type | Method | Description |
---|---|---|
void |
addActionListener |
Adds an action listener to the Timer . |
protected void |
fireActionPerformed |
Notifies all listeners that have registered interest for notification on this event type. |
String |
getActionCommand() |
Returns the string that will be delivered as the action command in ActionEvent s fired by this timer. |
ActionListener[] |
getActionListeners() |
Returns an array of all the action listeners registered on this timer. |
int |
getDelay() |
Returns the delay, in milliseconds, between firings of action events. |
int |
getInitialDelay() |
Returns the Timer 's initial delay. |
<T extends EventListener> |
getListeners |
Returns an array of all the objects currently registered as FooListener s upon this Timer . |
static boolean |
getLogTimers() |
Returns true if logging is enabled. |
boolean |
isCoalesce() |
Returns true if the Timer coalesces multiple pending action events. |
boolean |
isRepeats() |
Returns true (the default) if the Timer will send an action event to its listeners multiple times. |
boolean |
isRunning() |
Returns true if the Timer is running. |
void |
removeActionListener |
Removes the specified action listener from the Timer . |
void |
restart() |
Restarts the Timer , canceling any pending firings and causing it to fire with its initial delay. |
void |
setActionCommand |
Sets the string that will be delivered as the action command in ActionEvent s fired by this timer. |
void |
setCoalesce |
Sets whether the Timer coalesces multiple pending ActionEvent firings. |
void |
setDelay |
Sets the Timer 's between-event delay, the number of milliseconds between successive action events. |
void |
setInitialDelay |
Sets the Timer 's initial delay, the time in milliseconds to wait after the timer is started before firing the first event. |
static void |
setLogTimers |
Enables or disables the timer log. |
void |
setRepeats |
If flag is false , instructs the Timer to send only one action event to its listeners. |
void |
start() |
Starts the Timer , causing it to start sending action events to its listeners. |
void |
stop() |
Stops the Timer , causing it to stop sending action events to its listeners. |
protected EventListenerList listenerList
public Timer(int delay, ActionListener listener)
Timer
and initializes both the initial delay and between-event delay to delay
milliseconds. If delay
is less than or equal to zero, the timer fires as soon as it is started. If listener
is not null
, it's registered as an action listener on the timer.delay
- milliseconds for the initial and between-event delaylistener
- an initial listener; can be null
public void addActionListener(ActionListener listener)
Timer
.listener
- the listener to addpublic void removeActionListener(ActionListener listener)
Timer
.listener
- the listener to removepublic ActionListener[] getActionListeners()
ActionListener
s or an empty array if no action listeners are currently registeredprotected void fireActionPerformed(ActionEvent e)
e
- the action event to firepublic <T extends EventListener> T[] getListeners(Class<T> listenerType)
FooListener
s upon this Timer
. FooListener
s are registered using the addFooListener
method. You can specify the listenerType
argument with a class literal, such as FooListener.class
. For example, you can query a Timer
instance t
for its action listeners with the following code:
ActionListener[] als = (ActionListener[])(t.getListeners(ActionListener.class));If no such listeners exist, this method returns an empty array.
T
- the type of EventListener
class being requestedlistenerType
- the type of listeners requested; this parameter should specify an interface that descends from java.util.EventListener
FooListener
s on this timer, or an empty array if no such listeners have been addedClassCastException
- if listenerType
doesn't specify a class or interface that implements java.util.EventListener
public static void setLogTimers(boolean flag)
System.out
whenever the timer goes off.flag
- true
to enable loggingpublic static boolean getLogTimers()
true
if logging is enabled.true
if logging is enabled; otherwise, falsepublic void setDelay(int delay)
Timer
's between-event delay, the number of milliseconds between successive action events. This does not affect the initial delay property, which can be set by the setInitialDelay
method.delay
- the delay in millisecondspublic int getDelay()
public void setInitialDelay(int initialDelay)
Timer
's initial delay, the time in milliseconds to wait after the timer is started before firing the first event. Upon construction, this is set to be the same as the between-event delay, but then its value is independent and remains unaffected by changes to the between-event delay.initialDelay
- the initial delay, in millisecondspublic int getInitialDelay()
Timer
's initial delay.Timer
's initial delay, in millisecondspublic void setRepeats(boolean flag)
flag
is false
, instructs the Timer
to send only one action event to its listeners.flag
- specify false
to make the timer stop after sending its first action eventpublic boolean isRepeats()
true
(the default) if the Timer
will send an action event to its listeners multiple times.Timer
will send an action event to its listeners multiple timespublic void setCoalesce(boolean flag)
Timer
coalesces multiple pending ActionEvent
firings. A busy application may not be able to keep up with a Timer
's event generation, causing multiple action events to be queued. When processed, the application sends these events one after the other, causing the Timer
's listeners to receive a sequence of events with no delay between them. Coalescing avoids this situation by reducing multiple pending events to a single event. Timer
s coalesce events by default.flag
- specify false
to turn off coalescingpublic boolean isCoalesce()
true
if the Timer
coalesces multiple pending action events.Timer
coalesces multiple pending action eventspublic void setActionCommand(String command)
ActionEvent
s fired by this timer. null
is an acceptable value.command
- the action commandpublic String getActionCommand()
ActionEvent
s fired by this timer. May be null
, which is also the default.public void start()
Timer
, causing it to start sending action events to its listeners.public boolean isRunning()
true
if the Timer
is running.Timer
is running, false otherwisepublic void stop()
Timer
, causing it to stop sending action events to its listeners.public void restart()
Timer
, canceling any pending firings and causing it to fire with its initial delay.
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Documentation extracted from Debian's OpenJDK Development Kit package.
Licensed under the GNU General Public License, version 2, with the Classpath Exception.
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https://docs.oracle.com/en/java/javase/21/docs/api/java.desktop/javax/swing/Timer.html