public abstract class JComponent extends Container implements Serializable
The base class for all Swing components except top-level containers. To use a component that inherits from JComponent, you must place the component in a containment hierarchy whose root is a top-level Swing container. Top-level Swing containers -- such as JFrame, JDialog, and JApplet -- are specialized components that provide a place for other Swing components to paint themselves. For an explanation of containment hierarchies, see Swing Components and the Containment Hierarchy, a section in The Java Tutorial.
The JComponent class provides:
ComponentUI. See How to Set the Look and Feel in The Java Tutorial for more information. JComponent contains all of the methods in the Accessible interface, but it doesn't actually implement the interface. That is the responsibility of the individual classes that extend JComponent. putClientProperty(java.lang.Object, java.lang.Object) and getClientProperty(java.lang.Object) methods, you can associate name-object pairs with any object that descends from JComponent. JComponent and its subclasses document default values for certain properties. For example, JTable documents the default row height as 16. Each JComponent subclass that has a ComponentUI will create the ComponentUI as part of its constructor. In order to provide a particular look and feel each ComponentUI may set properties back on the JComponent that created it. For example, a custom look and feel may require JTables to have a row height of 24. The documented defaults are the value of a property BEFORE the ComponentUI has been installed. If you need a specific value for a particular property you should explicitly set it.
In release 1.4, the focus subsystem was rearchitected. For more information, see How to Use the Focus Subsystem, a section in The Java Tutorial.
Warning: Swing is not thread safe. For more information see Swing's Threading Policy.
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.
KeyStroke, Action, setBorder(javax.swing.border.Border), registerKeyboardAction(java.awt.event.ActionListener, java.lang.String, javax.swing.KeyStroke, int), JOptionPane, setDebugGraphicsOptions(int), setToolTipText(java.lang.String), setAutoscrolls(boolean)
| Modifier and Type | Class and Description |
|---|---|
class |
JComponent.AccessibleJComponent Inner class of JComponent used to provide default support for accessibility. |
Container.AccessibleAWTContainer Component.AccessibleAWTComponent, Component.BaselineResizeBehavior, Component.BltBufferStrategy, Component.FlipBufferStrategy protected transient ComponentUI ui
The look and feel delegate for this component.
protected EventListenerList listenerList
A list of event listeners for this component.
public static final int WHEN_FOCUSED
Constant used for registerKeyboardAction that means that the command should be invoked when the component has the focus.
public static final int WHEN_ANCESTOR_OF_FOCUSED_COMPONENT
Constant used for registerKeyboardAction that means that the command should be invoked when the receiving component is an ancestor of the focused component or is itself the focused component.
public static final int WHEN_IN_FOCUSED_WINDOW
Constant used for registerKeyboardAction that means that the command should be invoked when the receiving component is in the window that has the focus or is itself the focused component.
public static final int UNDEFINED_CONDITION
Constant used by some of the APIs to mean that no condition is defined.
public static final String TOOL_TIP_TEXT_KEY
The comment to display when the cursor is over the component, also known as a "value tip", "flyover help", or "flyover label".
public JComponent()
Default JComponent constructor. This constructor does very little initialization beyond calling the Container constructor. For example, the initial layout manager is null. It does, however, set the component's locale property to the value returned by JComponent.getDefaultLocale.
getDefaultLocale()public void setInheritsPopupMenu(boolean value)
Sets whether or not getComponentPopupMenu should delegate to the parent if this component does not have a JPopupMenu assigned to it.
The default value for this is false, but some JComponent subclasses that are implemented as a number of JComponents may set this to true.
This is a bound property.
value - whether or not the JPopupMenu is inheritedsetComponentPopupMenu(javax.swing.JPopupMenu)public boolean getInheritsPopupMenu()
Returns true if the JPopupMenu should be inherited from the parent.
setComponentPopupMenu(javax.swing.JPopupMenu)public void setComponentPopupMenu(JPopupMenu popup)
Sets the JPopupMenu for this JComponent. The UI is responsible for registering bindings and adding the necessary listeners such that the JPopupMenu will be shown at the appropriate time. When the JPopupMenu is shown depends upon the look and feel: some may show it on a mouse event, some may enable a key binding.
If popup is null, and getInheritsPopupMenu returns true, then getComponentPopupMenu will be delegated to the parent. This provides for a way to make all child components inherit the popupmenu of the parent.
This is a bound property.
popup - - the popup that will be assigned to this component may be nullgetComponentPopupMenu()public JPopupMenu getComponentPopupMenu()
Returns JPopupMenu that assigned for this component. If this component does not have a JPopupMenu assigned to it and getInheritsPopupMenu is true, this will return getParent().getComponentPopupMenu() (assuming the parent is valid.)
JPopupMenu assigned for this component or null if no popup assignedsetComponentPopupMenu(javax.swing.JPopupMenu)public void updateUI()
Resets the UI property to a value from the current look and feel. JComponent subclasses must override this method like this:
public void updateUI() {
setUI((SliderUI)UIManager.getUI(this);
} setUI(javax.swing.plaf.ComponentUI), UIManager.getLookAndFeel(), UIManager.getUI(javax.swing.JComponent)
protected void setUI(ComponentUI newUI)
Sets the look and feel delegate for this component. JComponent subclasses generally override this method to narrow the argument type. For example, in JSlider:
public void setUI(SliderUI newUI) {
super.setUI(newUI);
}
Additionally JComponent subclasses must provide a getUI method that returns the correct type. For example:
public SliderUI getUI() {
return (SliderUI)ui;
}
newUI - the new UI delegateupdateUI(), UIManager.getLookAndFeel(), UIManager.getUI(javax.swing.JComponent)
public String getUIClassID()
Returns the UIDefaults key used to look up the name of the swing.plaf.ComponentUI class that defines the look and feel for this component. Most applications will never need to call this method. Subclasses of JComponent that support pluggable look and feel should override this method to return a UIDefaults key that maps to the ComponentUI subclass that defines their look and feel.
UIDefaults key for a ComponentUI subclassUIDefaults.getUI(javax.swing.JComponent)protected Graphics getComponentGraphics(Graphics g)
Returns the graphics object used to paint this component. If DebugGraphics is turned on we create a new DebugGraphics object if necessary. Otherwise we just configure the specified graphics object's foreground and font.
g - the original Graphics objectGraphics object configured for this componentprotected void paintComponent(Graphics g)
Calls the UI delegate's paint method, if the UI delegate is non-null. We pass the delegate a copy of the Graphics object to protect the rest of the paint code from irrevocable changes (for example, Graphics.translate).
If you override this in a subclass you should not make permanent changes to the passed in Graphics. For example, you should not alter the clip Rectangle or modify the transform. If you need to do these operations you may find it easier to create a new Graphics from the passed in Graphics and manipulate it. Further, if you do not invoker super's implementation you must honor the opaque property, that is if this component is opaque, you must completely fill in the background in a non-opaque color. If you do not honor the opaque property you will likely see visual artifacts.
The passed in Graphics object might have a transform other than the identify transform installed on it. In this case, you might get unexpected results if you cumulatively apply another transform.
g - the Graphics object to protectpaint(java.awt.Graphics), ComponentUI
protected void paintChildren(Graphics g)
Paints this component's children. If shouldUseBuffer is true, no component ancestor has a buffer and the component children can use a buffer if they have one. Otherwise, one ancestor has a buffer currently in use and children should not use a buffer to paint.
g - the Graphics context in which to paintpaint(java.awt.Graphics), Container.paint(java.awt.Graphics)
protected void paintBorder(Graphics g)
Paints the component's border.
If you override this in a subclass you should not make permanent changes to the passed in Graphics. For example, you should not alter the clip Rectangle or modify the transform. If you need to do these operations you may find it easier to create a new Graphics from the passed in Graphics and manipulate it.
g - the Graphics context in which to paintpaint(java.awt.Graphics), setBorder(javax.swing.border.Border)
public void update(Graphics g)
Calls paint. Doesn't clear the background but see ComponentUI.update, which is called by paintComponent.
update in class Container
g - the Graphics context in which to paintpaint(java.awt.Graphics), paintComponent(java.awt.Graphics), ComponentUI
public void paint(Graphics g)
Invoked by Swing to draw components. Applications should not invoke paint directly, but should instead use the repaint method to schedule the component for redrawing.
This method actually delegates the work of painting to three protected methods: paintComponent, paintBorder, and paintChildren. They're called in the order listed to ensure that children appear on top of component itself. Generally speaking, the component and its children should not paint in the insets area allocated to the border. Subclasses can just override this method, as always. A subclass that just wants to specialize the UI (look and feel) delegate's paint method should just override paintComponent.
paint in class Container
g - the Graphics context in which to paintpaintComponent(java.awt.Graphics), paintBorder(java.awt.Graphics), paintChildren(java.awt.Graphics), getComponentGraphics(java.awt.Graphics), repaint(long, int, int, int, int)
public void printAll(Graphics g)
Invoke this method to print the component. This method invokes print on the component.
printAll in class Component
g - the Graphics context in which to paintprint(java.awt.Graphics), printComponent(java.awt.Graphics), printBorder(java.awt.Graphics), printChildren(java.awt.Graphics)
public void print(Graphics g)
Invoke this method to print the component to the specified Graphics. This method will result in invocations of printComponent, printBorder and printChildren. It is recommended that you override one of the previously mentioned methods rather than this one if your intention is to customize the way printing looks. However, it can be useful to override this method should you want to prepare state before invoking the superclass behavior. As an example, if you wanted to change the component's background color before printing, you could do the following:
public void print(Graphics g) {
Color orig = getBackground();
setBackground(Color.WHITE);
// wrap in try/finally so that we always restore the state
try {
super.print(g);
} finally {
setBackground(orig);
}
}
Alternatively, or for components that delegate painting to other objects, you can query during painting whether or not the component is in the midst of a print operation. The isPaintingForPrint method provides this ability and its return value will be changed by this method: to true immediately before rendering and to false immediately after. With each change a property change event is fired on this component with the name "paintingForPrint".
This method sets the component's state such that the double buffer will not be used: painting will be done directly on the passed in Graphics.
print in class Container
g - the Graphics context in which to paintprintComponent(java.awt.Graphics), printBorder(java.awt.Graphics), printChildren(java.awt.Graphics), isPaintingForPrint()
protected void printComponent(Graphics g)
This is invoked during a printing operation. This is implemented to invoke paintComponent on the component. Override this if you wish to add special painting behavior when printing.
g - the Graphics context in which to paintprint(java.awt.Graphics)protected void printChildren(Graphics g)
Prints this component's children. This is implemented to invoke paintChildren on the component. Override this if you wish to print the children differently than painting.
g - the Graphics context in which to paintprint(java.awt.Graphics)protected void printBorder(Graphics g)
Prints the component's border. This is implemented to invoke paintBorder on the component. Override this if you wish to print the border differently that it is painted.
g - the Graphics context in which to paintprint(java.awt.Graphics)public boolean isPaintingTile()
Returns true if the component is currently painting a tile. If this method returns true, paint will be called again for another tile. This method returns false if you are not painting a tile or if the last tile is painted. Use this method to keep some state you might need between tiles.
public final boolean isPaintingForPrint()
Returns true if the current painting operation on this component is part of a print operation. This method is useful when you want to customize what you print versus what you show on the screen.
You can detect changes in the value of this property by listening for property change events on this component with name "paintingForPrint".
Note: This method provides complimentary functionality to that provided by other high level Swing printing APIs. However, it deals strictly with painting and should not be confused as providing information on higher level print processes. For example, a JTable.print() operation doesn't necessarily result in a continuous rendering of the full component, and the return value of this method can change multiple times during that operation. It is even possible for the component to be painted to the screen while the printing process is ongoing. In such a case, the return value of this method is true when, and only when, the table is being painted as part of the printing process.
print(java.awt.Graphics)@Deprecated public boolean isManagingFocus()
Deprecated. As of 1.4, replaced by Component.setFocusTraversalKeys(int, Set) and Container.setFocusCycleRoot(boolean).
In release 1.4, the focus subsystem was rearchitected. For more information, see How to Use the Focus Subsystem, a section in The Java Tutorial.
Changes this JComponent's focus traversal keys to CTRL+TAB and CTRL+SHIFT+TAB. Also prevents SortingFocusTraversalPolicy from considering descendants of this JComponent when computing a focus traversal cycle.
Component.setFocusTraversalKeys(int, java.util.Set<? extends java.awt.AWTKeyStroke>), SortingFocusTraversalPolicy
@Deprecated public void setNextFocusableComponent(Component aComponent)
Deprecated. As of 1.4, replaced by FocusTraversalPolicy
In release 1.4, the focus subsystem was rearchitected. For more information, see How to Use the Focus Subsystem, a section in The Java Tutorial.
Overrides the default FocusTraversalPolicy for this JComponent's focus traversal cycle by unconditionally setting the specified Component as the next Component in the cycle, and this JComponent as the specified Component's previous Component in the cycle.
aComponent - the Component that should follow this JComponent in the focus traversal cyclegetNextFocusableComponent(), FocusTraversalPolicy
@Deprecated public Component getNextFocusableComponent()
Deprecated. As of 1.4, replaced by FocusTraversalPolicy.
In release 1.4, the focus subsystem was rearchitected. For more information, see How to Use the Focus Subsystem, a section in The Java Tutorial.
Returns the Component set by a prior call to setNextFocusableComponent(Component) on this JComponent.
Component that will follow this JComponent in the focus traversal cycle, or null if none has been explicitly specifiedsetNextFocusableComponent(java.awt.Component)public void setRequestFocusEnabled(boolean requestFocusEnabled)
Provides a hint as to whether or not this JComponent should get focus. This is only a hint, and it is up to consumers that are requesting focus to honor this property. This is typically honored for mouse operations, but not keyboard operations. For example, look and feels could verify this property is true before requesting focus during a mouse operation. This would often times be used if you did not want a mouse press on a JComponent to steal focus, but did want the JComponent to be traversable via the keyboard. If you do not want this JComponent focusable at all, use the setFocusable method instead.
Please see How to Use the Focus Subsystem, a section in The Java Tutorial, for more information.
requestFocusEnabled - indicates whether you want this JComponent to be focusable or notComponent.setFocusable(boolean)
public boolean isRequestFocusEnabled()
Returns true if this JComponent should get focus; otherwise returns false.
Please see How to Use the Focus Subsystem, a section in The Java Tutorial, for more information.
true if this component should get focus, otherwise returns false
setRequestFocusEnabled(boolean), Focus Specification, Component.isFocusable()
public void requestFocus()
Requests that this Component gets the input focus. Refer to Component.requestFocus() for a complete description of this method.
Note that the use of this method is discouraged because its behavior is platform dependent. Instead we recommend the use of requestFocusInWindow(). If you would like more information on focus, see How to Use the Focus Subsystem, a section in The Java Tutorial.
requestFocus in class Component
Component.requestFocusInWindow(), Component.requestFocusInWindow(boolean)
public boolean requestFocus(boolean temporary)
Requests that this Component gets the input focus. Refer to Component.requestFocus(boolean) for a complete description of this method.
Note that the use of this method is discouraged because its behavior is platform dependent. Instead we recommend the use of requestFocusInWindow(boolean). If you would like more information on focus, see How to Use the Focus Subsystem, a section in The Java Tutorial.
requestFocus in class Component
temporary - boolean indicating if the focus change is temporaryfalse if the focus change request is guaranteed to fail; true if it is likely to succeedComponent.requestFocusInWindow(), Component.requestFocusInWindow(boolean)
public boolean requestFocusInWindow()
Requests that this Component gets the input focus. Refer to Component.requestFocusInWindow() for a complete description of this method.
If you would like more information on focus, see How to Use the Focus Subsystem, a section in The Java Tutorial.
requestFocusInWindow in class Component
false if the focus change request is guaranteed to fail; true if it is likely to succeedComponent.requestFocusInWindow(), Component.requestFocusInWindow(boolean)
protected boolean requestFocusInWindow(boolean temporary)
Requests that this Component gets the input focus. Refer to Component.requestFocusInWindow(boolean) for a complete description of this method.
If you would like more information on focus, see How to Use the Focus Subsystem, a section in The Java Tutorial.
requestFocusInWindow in class Component
temporary - boolean indicating if the focus change is temporaryfalse if the focus change request is guaranteed to fail; true if it is likely to succeedComponent.requestFocusInWindow(), Component.requestFocusInWindow(boolean)
public void grabFocus()
Requests that this Component get the input focus, and that this Component's top-level ancestor become the focused Window. This component must be displayable, visible, and focusable for the request to be granted.
This method is intended for use by focus implementations. Client code should not use this method; instead, it should use requestFocusInWindow().
requestFocusInWindow()public void setVerifyInputWhenFocusTarget(boolean verifyInputWhenFocusTarget)
Sets the value to indicate whether input verifier for the current focus owner will be called before this component requests focus. The default is true. Set to false on components such as a Cancel button or a scrollbar, which should activate even if the input in the current focus owner is not "passed" by the input verifier for that component.
verifyInputWhenFocusTarget - value for the verifyInputWhenFocusTarget propertyInputVerifier, setInputVerifier(javax.swing.InputVerifier), getInputVerifier(), getVerifyInputWhenFocusTarget()
public boolean getVerifyInputWhenFocusTarget()
Returns the value that indicates whether the input verifier for the current focus owner will be called before this component requests focus.
verifyInputWhenFocusTarget propertyInputVerifier, setInputVerifier(javax.swing.InputVerifier), getInputVerifier(), setVerifyInputWhenFocusTarget(boolean)
public FontMetrics getFontMetrics(Font font)
Gets the FontMetrics for the specified Font.
getFontMetrics in class Component
font - the font for which font metrics is to be obtainedfont
NullPointerException - if font is nullComponent.getFont(), Component.getPeer(), ComponentPeer.getFontMetrics(Font), Toolkit.getFontMetrics(Font)
public void setPreferredSize(Dimension preferredSize)
Sets the preferred size of this component. If preferredSize is null, the UI will be asked for the preferred size.
setPreferredSize in class Component
preferredSize - The new preferred size, or nullComponent.getPreferredSize(), Component.isPreferredSizeSet()
public Dimension getPreferredSize()
If the preferredSize has been set to a non-null value just returns it. If the UI delegate's getPreferredSize method returns a non null value then return that; otherwise defer to the component's layout manager.
getPreferredSize in class Container
preferredSize propertysetPreferredSize(java.awt.Dimension), ComponentUI
public void setMaximumSize(Dimension maximumSize)
Sets the maximum size of this component to a constant value. Subsequent calls to getMaximumSize will always return this value; the component's UI will not be asked to compute it. Setting the maximum size to null restores the default behavior.
setMaximumSize in class Component
maximumSize - a Dimension containing the desired maximum allowable sizegetMaximumSize()public Dimension getMaximumSize()
If the maximum size has been set to a non-null value just returns it. If the UI delegate's getMaximumSize method returns a non-null value then return that; otherwise defer to the component's layout manager.
getMaximumSize in class Container
maximumSize propertysetMaximumSize(java.awt.Dimension), ComponentUI
public void setMinimumSize(Dimension minimumSize)
Sets the minimum size of this component to a constant value. Subsequent calls to getMinimumSize will always return this value; the component's UI will not be asked to compute it. Setting the minimum size to null restores the default behavior.
setMinimumSize in class Component
minimumSize - the new minimum size of this componentgetMinimumSize()public Dimension getMinimumSize()
If the minimum size has been set to a non-null value just returns it. If the UI delegate's getMinimumSize method returns a non-null value then return that; otherwise defer to the component's layout manager.
getMinimumSize in class Container
minimumSize propertysetMinimumSize(java.awt.Dimension), ComponentUI
public boolean contains(int x,
int y) Gives the UI delegate an opportunity to define the precise shape of this component for the sake of mouse processing.
contains in class Component
x - the x coordinate of the pointy - the y coordinate of the pointComponent.contains(int, int), ComponentUI
public void setBorder(Border border)
Sets the border of this component. The Border object is responsible for defining the insets for the component (overriding any insets set directly on the component) and for optionally rendering any border decorations within the bounds of those insets. Borders should be used (rather than insets) for creating both decorative and non-decorative (such as margins and padding) regions for a swing component. Compound borders can be used to nest multiple borders within a single component.
Although technically you can set the border on any object that inherits from JComponent, the look and feel implementation of many standard Swing components doesn't work well with user-set borders. In general, when you want to set a border on a standard Swing component other than JPanel or JLabel, we recommend that you put the component in a JPanel and set the border on the JPanel.
This is a bound property.
border - the border to be rendered for this componentBorder, CompoundBorder
public Border getBorder()
Returns the border of this component or null if no border is currently set.
setBorder(javax.swing.border.Border)public Insets getInsets()
If a border has been set on this component, returns the border's insets; otherwise calls super.getInsets.
getInsets in class Container
setBorder(javax.swing.border.Border)public Insets getInsets(Insets insets)
Returns an Insets object containing this component's inset values. The passed-in Insets object will be reused if possible. Calling methods cannot assume that the same object will be returned, however. All existing values within this object are overwritten. If insets is null, this will allocate a new one.
insets - the Insets object, which can be reusedInsets objectgetInsets()public float getAlignmentY()
Overrides Container.getAlignmentY to return the horizontal alignment.
getAlignmentY in class Container
alignmentY propertysetAlignmentY(float), Component.getAlignmentY()
public void setAlignmentY(float alignmentY)
Sets the the horizontal alignment.
alignmentY - the new horizontal alignmentgetAlignmentY()public float getAlignmentX()
Overrides Container.getAlignmentX to return the vertical alignment.
getAlignmentX in class Container
alignmentX propertysetAlignmentX(float), Component.getAlignmentX()
public void setAlignmentX(float alignmentX)
Sets the the vertical alignment.
alignmentX - the new vertical alignmentgetAlignmentX()public void setInputVerifier(InputVerifier inputVerifier)
Sets the input verifier for this component.
inputVerifier - the new input verifierInputVerifierpublic InputVerifier getInputVerifier()
Returns the input verifier for this component.
inputVerifier propertyInputVerifierpublic Graphics getGraphics()
Returns this component's graphics context, which lets you draw on a component. Use this method to get a Graphics object and then invoke operations on that object to draw on the component.
getGraphics in class Component
Component.paint(java.awt.Graphics)public void setDebugGraphicsOptions(int debugOptions)
Enables or disables diagnostic information about every graphics operation performed within the component or one of its children.
debugOptions - determines how the component should display the information; one of the following options: ExternalWindow that displays the operations performed on the View's offscreen buffer. debugOptions is bitwise OR'd into the current valuepublic int getDebugGraphicsOptions()
Returns the state of graphics debugging.
ExternalWindow that displays the operations performed on the View's offscreen buffer. setDebugGraphicsOptions(int)public void registerKeyboardAction(ActionListener anAction,
String aCommand,
KeyStroke aKeyStroke,
int aCondition) This method is now obsolete, please use a combination of getActionMap() and getInputMap() for similar behavior. For example, to bind the KeyStroke aKeyStroke to the Action anAction now use:
component.getInputMap().put(aKeyStroke, aCommand); component.getActionMap().put(aCommmand, anAction);The above assumes you want the binding to be applicable for
WHEN_FOCUSED. To register bindings for other focus states use the getInputMap method that takes an integer.
Register a new keyboard action. anAction will be invoked if a key event matching aKeyStroke occurs and aCondition is verified. The KeyStroke object defines a particular combination of a keyboard key and one or more modifiers (alt, shift, ctrl, meta).
The aCommand will be set in the delivered event if specified.
The aCondition can be one of:
The combination of keystrokes and conditions lets you define high level (semantic) action events for a specified keystroke+modifier combination (using the KeyStroke class) and direct to a parent or child of a component that has the focus, or to the component itself. In other words, in any hierarchical structure of components, an arbitrary key-combination can be immediately directed to the appropriate component in the hierarchy, and cause a specific method to be invoked (usually by way of adapter objects).
If an action has already been registered for the receiving container, with the same charCode and the same modifiers, anAction will replace the action.
anAction - the Action to be registeredaCommand - the command to be set in the delivered eventaKeyStroke - the KeyStroke to bind to the actionaCondition - the condition that needs to be met, see aboveKeyStrokepublic void registerKeyboardAction(ActionListener anAction,
KeyStroke aKeyStroke,
int aCondition) This method is now obsolete, please use a combination of getActionMap() and getInputMap() for similar behavior.
public void unregisterKeyboardAction(KeyStroke aKeyStroke)
This method is now obsolete. To unregister an existing binding you can either remove the binding from the ActionMap/InputMap, or place a dummy binding the InputMap. Removing the binding from the InputMap allows bindings in parent InputMaps to be active, whereas putting a dummy binding in the InputMap effectively disables the binding from ever happening.
Unregisters a keyboard action. This will remove the binding from the ActionMap (if it exists) as well as the InputMaps.
public KeyStroke[] getRegisteredKeyStrokes()
Returns the KeyStrokes that will initiate registered actions.
KeyStroke objectsregisterKeyboardAction(java.awt.event.ActionListener, java.lang.String, javax.swing.KeyStroke, int)public int getConditionForKeyStroke(KeyStroke aKeyStroke)
Returns the condition that determines whether a registered action occurs in response to the specified keystroke.
For Java 2 platform v1.3, a KeyStroke can be associated with more than one condition. For example, 'a' could be bound for the two conditions WHEN_FOCUSED and WHEN_IN_FOCUSED_WINDOW condition.
public ActionListener getActionForKeyStroke(KeyStroke aKeyStroke)
Returns the object that will perform the action registered for a given keystroke.
ActionListener object invoked when the keystroke occurspublic void resetKeyboardActions()
Unregisters all the bindings in the first tier InputMaps and ActionMap. This has the effect of removing any local bindings, and allowing the bindings defined in parent InputMap/ActionMaps (the UI is usually defined in the second tier) to persist.
public final void setInputMap(int condition,
InputMap map) Sets the InputMap to use under the condition condition to map. A null value implies you do not want any bindings to be used, even from the UI. This will not reinstall the UI InputMap (if there was one). condition has one of the following values:
WHEN_IN_FOCUSED_WINDOW WHEN_FOCUSED WHEN_ANCESTOR_OF_FOCUSED_COMPONENT condition is WHEN_IN_FOCUSED_WINDOW and map is not a ComponentInputMap, an IllegalArgumentException will be thrown. Similarly, if condition is not one of the values listed, an IllegalArgumentException will be thrown. condition - one of the values listed abovemap - the InputMap to use for the given conditionIllegalArgumentException - if condition is WHEN_IN_FOCUSED_WINDOW and map is not an instance of ComponentInputMap; or if condition is not one of the legal values specified abovepublic final InputMap getInputMap(int condition)
Returns the InputMap that is used during condition.
condition - one of WHEN_IN_FOCUSED_WINDOW, WHEN_FOCUSED, WHEN_ANCESTOR_OF_FOCUSED_COMPONENTInputMap for the specified condition
public final InputMap getInputMap()
Returns the InputMap that is used when the component has focus. This is convenience method for getInputMap(WHEN_FOCUSED).
InputMap used when the component has focuspublic final void setActionMap(ActionMap am)
Sets the ActionMap to am. This does not set the parent of the am to be the ActionMap from the UI (if there was one), it is up to the caller to have done this.
am - the new ActionMap
public final ActionMap getActionMap()
Returns the ActionMap used to determine what Action to fire for particular KeyStroke binding. The returned ActionMap, unless otherwise set, will have the ActionMap from the UI set as the parent.
ActionMap containing the key/action bindingspublic int getBaseline(int width,
int height) Returns the baseline. The baseline is measured from the top of the component. This method is primarily meant for LayoutManagers to align components along their baseline. A return value less than 0 indicates this component does not have a reasonable baseline and that LayoutManagers should not align this component on its baseline.
This method calls into the ComponentUI method of the same name. If this component does not have a ComponentUI -1 will be returned. If a value >= 0 is returned, then the component has a valid baseline for any size >= the minimum size and getBaselineResizeBehavior can be used to determine how the baseline changes with size.
getBaseline in class Component
width - the width to get the baseline forheight - the height to get the baseline forIllegalArgumentException - if width or height is < 0getBaselineResizeBehavior(), FontMetrics
public Component.BaselineResizeBehavior getBaselineResizeBehavior()
Returns an enum indicating how the baseline of the component changes as the size changes. This method is primarily meant for layout managers and GUI builders.
This method calls into the ComponentUI method of the same name. If this component does not have a ComponentUI BaselineResizeBehavior.OTHER will be returned. Subclasses should never return null; if the baseline can not be calculated return BaselineResizeBehavior.OTHER. Callers should first ask for the baseline using getBaseline and if a value >= 0 is returned use this method. It is acceptable for this method to return a value other than BaselineResizeBehavior.OTHER even if getBaseline returns a value less than 0.
getBaselineResizeBehavior in class Component
getBaseline(int, int)@Deprecated public boolean requestDefaultFocus()
Deprecated. As of 1.4, replaced by FocusTraversalPolicy.getDefaultComponent(Container).requestFocus()
In release 1.4, the focus subsystem was rearchitected. For more information, see How to Use the Focus Subsystem, a section in The Java Tutorial.
Requests focus on this JComponent's FocusTraversalPolicy's default Component. If this JComponent is a focus cycle root, then its FocusTraversalPolicy is used. Otherwise, the FocusTraversalPolicy of this JComponent's focus-cycle-root ancestor is used.
public void setVisible(boolean aFlag)
Makes the component visible or invisible. Overrides Component.setVisible.
setVisible in class Component
aFlag - true to make the component visible; false to make it invisibleComponent.isVisible(), Component.invalidate()
public void setEnabled(boolean enabled)
Sets whether or not this component is enabled. A component that is enabled may respond to user input, while a component that is not enabled cannot respond to user input. Some components may alter their visual representation when they are disabled in order to provide feedback to the user that they cannot take input.
Note: Disabling a component does not disable its children.
Note: Disabling a lightweight component does not prevent it from receiving MouseEvents.
setEnabled in class Component
enabled - true if this component should be enabled, false otherwiseComponent.isEnabled(), Component.isLightweight()
public void setForeground(Color fg)
Sets the foreground color of this component. It is up to the look and feel to honor this property, some may choose to ignore it.
setForeground in class Component
fg - the desired foreground Color
Component.getForeground()public void setBackground(Color bg)
Sets the background color of this component. The background color is used only if the component is opaque, and only by subclasses of JComponent or ComponentUI implementations. Direct subclasses of JComponent must override paintComponent to honor this property.
It is up to the look and feel to honor this property, some may choose to ignore it.
setBackground in class Component
bg - the desired background Color
Component.getBackground(), setOpaque(boolean)
public void setFont(Font font)
Sets the font for this component.
setFont in class Container
font - the desired Font for this componentComponent.getFont()public static Locale getDefaultLocale()
Returns the default locale used to initialize each JComponent's locale property upon creation. The default locale has "AppContext" scope so that applets (and potentially multiple lightweight applications running in a single VM) can have their own setting. An applet can safely alter its default locale because it will have no affect on other applets (or the browser).
Locale.setDefaultLocale(java.util.Locale), Component.getLocale(), Component.setLocale(java.util.Locale)
public static void setDefaultLocale(Locale l)
Sets the default locale used to initialize each JComponent's locale property upon creation. The initial value is the VM's default locale. The default locale has "AppContext" scope so that applets (and potentially multiple lightweight applications running in a single VM) can have their own setting. An applet can safely alter its default locale because it will have no affect on other applets (or the browser).
l - the desired default Locale for new components.getDefaultLocale(), Component.getLocale(), Component.setLocale(java.util.Locale)
protected void processComponentKeyEvent(KeyEvent e)
Processes any key events that the component itself recognizes. This is called after the focus manager and any interested listeners have been given a chance to steal away the event. This method is called only if the event has not yet been consumed. This method is called prior to the keyboard UI logic.
This method is implemented to do nothing. Subclasses would normally override this method if they process some key events themselves. If the event is processed, it should be consumed.
protected void processKeyEvent(KeyEvent e)
Overrides processKeyEvent to process events.
processKeyEvent in class Component
e - the key eventKeyEvent, KeyListener, KeyboardFocusManager, DefaultKeyboardFocusManager, Component.processEvent(java.awt.AWTEvent), Component.dispatchEvent(java.awt.AWTEvent), Component.addKeyListener(java.awt.event.KeyListener), Component.enableEvents(long), Component.isShowing()
protected boolean processKeyBinding(KeyStroke ks,
KeyEvent e,
int condition,
boolean pressed) Invoked to process the key bindings for ks as the result of the KeyEvent e. This obtains the appropriate InputMap, gets the binding, gets the action from the ActionMap, and then (if the action is found and the component is enabled) invokes notifyAction to notify the action.
ks - the KeyStroke queriede - the KeyEvent
condition - one of the following values: pressed - true if the key is pressedpublic void setToolTipText(String text)
Registers the text to display in a tool tip. The text displays when the cursor lingers over the component.
See How to Use Tool Tips in The Java Tutorial for further documentation.
text - the string to display; if the text is null, the tool tip is turned off for this componentTOOL_TIP_TEXT_KEYpublic String getToolTipText()
Returns the tooltip string that has been set with setToolTipText.
TOOL_TIP_TEXT_KEYpublic String getToolTipText(MouseEvent event)
Returns the string to be used as the tooltip for event. By default this returns any string set using setToolTipText. If a component provides more extensive API to support differing tooltips at different locations, this method should be overridden.
public Point getToolTipLocation(MouseEvent event)
Returns the tooltip location in this component's coordinate system. If null is returned, Swing will choose a location. The default implementation returns null.
event - the MouseEvent that caused the ToolTipManager to show the tooltipnull
public Point getPopupLocation(MouseEvent event)
Returns the preferred location to display the popup menu in this component's coordinate system. It is up to the look and feel to honor this property, some may choose to ignore it. If null, the look and feel will choose a suitable location.
event - the MouseEvent that triggered the popup to be shown, or null if the popup is not being shown as the result of a mouse eventJPopupMenu, or null
public JToolTip createToolTip()
Returns the instance of JToolTip that should be used to display the tooltip. Components typically would not override this method, but it can be used to cause different tooltips to be displayed differently.
JToolTip used to display this toolTippublic void scrollRectToVisible(Rectangle aRect)
Forwards the scrollRectToVisible() message to the JComponent's parent. Components that can service the request, such as JViewport, override this method and perform the scrolling.
aRect - the visible Rectangle
JViewportpublic void setAutoscrolls(boolean autoscrolls)
Sets the autoscrolls property. If true mouse dragged events will be synthetically generated when the mouse is dragged outside of the component's bounds and mouse motion has paused (while the button continues to be held down). The synthetic events make it appear that the drag gesture has resumed in the direction established when the component's boundary was crossed. Components that support autoscrolling must handle mouseDragged events by calling scrollRectToVisible with a rectangle that contains the mouse event's location. All of the Swing components that support item selection and are typically displayed in a JScrollPane (JTable, JList, JTree, JTextArea, and JEditorPane) already handle mouse dragged events in this way. To enable autoscrolling in any other component, add a mouse motion listener that calls scrollRectToVisible. For example, given a JPanel, myPanel:
MouseMotionListener doScrollRectToVisible = new MouseMotionAdapter() {
public void mouseDragged(MouseEvent e) {
Rectangle r = new Rectangle(e.getX(), e.getY(), 1, 1);
((JPanel)e.getSource()).scrollRectToVisible(r);
}
};
myPanel.addMouseMotionListener(doScrollRectToVisible); The default value of the autoScrolls property is false. autoscrolls - if true, synthetic mouse dragged events are generated when the mouse is dragged outside of a component's bounds and the mouse button continues to be held down; otherwise falsegetAutoscrolls(), JViewport, JScrollPane
public boolean getAutoscrolls()
Gets the autoscrolls property.
autoscrolls propertyJViewport, setAutoscrolls(boolean)
public void setTransferHandler(TransferHandler newHandler)
Sets the TransferHandler, which provides support for transfer of data into and out of this component via cut/copy/paste and drag and drop. This may be null if the component does not support data transfer operations.
If the new TransferHandler is not null, this method also installs a new DropTarget on the component to activate drop handling through the TransferHandler and activate any built-in support (such as calculating and displaying potential drop locations). If you do not wish for this component to respond in any way to drops, you can disable drop support entirely either by removing the drop target (setDropTarget(null)) or by de-activating it (getDropTaget().setActive(false)).
If the new TransferHandler is null, this method removes the drop target.
Under two circumstances, this method does not modify the drop target: First, if the existing drop target on this component was explicitly set by the developer to a non-null value. Second, if the system property suppressSwingDropSupport is true. The default value for the system property is false.
Please see How to Use Drag and Drop and Data Transfer, a section in The Java Tutorial, for more information.
newHandler - the new TransferHandler
TransferHandler, getTransferHandler()
public TransferHandler getTransferHandler()
Gets the transferHandler property.
transferHandler propertyTransferHandler, setTransferHandler(javax.swing.TransferHandler)
protected void processMouseEvent(MouseEvent e)
Processes mouse events occurring on this component by dispatching them to any registered MouseListener objects, refer to Component.processMouseEvent(MouseEvent) for a complete description of this method.
processMouseEvent in class Component
e - the mouse eventComponent.processMouseEvent(java.awt.event.MouseEvent)protected void processMouseMotionEvent(MouseEvent e)
Processes mouse motion events, such as MouseEvent.MOUSE_DRAGGED.
processMouseMotionEvent in class Component
e - the MouseEvent
MouseEvent@Deprecated public void enable()
Deprecated. As of JDK version 1.1, replaced by java.awt.Component.setEnabled(boolean).
@Deprecated public void disable()
Deprecated. As of JDK version 1.1, replaced by java.awt.Component.setEnabled(boolean).
public final Object getClientProperty(Object key)
Returns the value of the property with the specified key. Only properties added with putClientProperty will return a non-null value.
key - the being queriednull
putClientProperty(java.lang.Object, java.lang.Object)public final void putClientProperty(Object key,
Object value) Adds an arbitrary key/value "client property" to this component.
The get/putClientProperty methods provide access to a small per-instance hashtable. Callers can use get/putClientProperty to annotate components that were created by another module. For example, a layout manager might store per child constraints this way. For example:
componentA.putClientProperty("to the left of", componentB); If value is null this method will remove the property. Changes to client properties are reported with PropertyChange events. The name of the property (for the sake of PropertyChange events) is key.toString(). The clientProperty dictionary is not intended to support large scale extensions to JComponent nor should be it considered an alternative to subclassing when designing a new component.
key - the new client property keyvalue - the new client property value; if null this method will remove the propertygetClientProperty(java.lang.Object), Container.addPropertyChangeListener(java.beans.PropertyChangeListener)
public void setFocusTraversalKeys(int id,
Set<? extends AWTKeyStroke> keystrokes) Sets the focus traversal keys for a given traversal operation for this Component. Refer to Component.setFocusTraversalKeys(int, java.util.Set<? extends java.awt.AWTKeyStroke>) for a complete description of this method.
This method may throw a ClassCastException if any Object in keystrokes is not an AWTKeyStroke.
setFocusTraversalKeys in class Container
id - one of KeyboardFocusManager.FORWARD_TRAVERSAL_KEYS, KeyboardFocusManager.BACKWARD_TRAVERSAL_KEYS, or KeyboardFocusManager.UP_CYCLE_TRAVERSAL_KEYSkeystrokes - the Set of AWTKeyStroke for the specified operationIllegalArgumentException - if id is not one of KeyboardFocusManager.FORWARD_TRAVERSAL_KEYS, KeyboardFocusManager.BACKWARD_TRAVERSAL_KEYS, or KeyboardFocusManager.UP_CYCLE_TRAVERSAL_KEYS, or if keystrokes contains null, or if any keystroke represents a KEY_TYPED event, or if any keystroke already maps to another focus traversal operation for this ComponentKeyboardFocusManager.FORWARD_TRAVERSAL_KEYS, KeyboardFocusManager.BACKWARD_TRAVERSAL_KEYS, KeyboardFocusManager.UP_CYCLE_TRAVERSAL_KEYS
public static boolean isLightweightComponent(Component c)
Returns true if this component is lightweight, that is, if it doesn't have a native window system peer.
@Deprecated
public void reshape(int x,
int y,
int w,
int h) Deprecated. As of JDK 5, replaced by Component.setBounds(int, int, int, int).
Moves and resizes this component.
reshape in class Component
x - the new horizontal locationy - the new vertical locationw - the new widthh - the new heightComponent.setBounds(int, int, int, int)public Rectangle getBounds(Rectangle rv)
Stores the bounds of this component into "return value" rv and returns rv. If rv is null a new Rectangle is allocated. This version of getBounds is useful if the caller wants to avoid allocating a new Rectangle object on the heap.
getBounds in class Component
rv - the return value, modified to the component's boundsrv; if rv is null return a newly created Rectangle with this component's boundspublic Dimension getSize(Dimension rv)
Stores the width/height of this component into "return value" rv and returns rv. If rv is null a new Dimension object is allocated. This version of getSize is useful if the caller wants to avoid allocating a new Dimension object on the heap.
getSize in class Component
rv - the return value, modified to the component's sizervpublic Point getLocation(Point rv)
Stores the x,y origin of this component into "return value" rv and returns rv. If rv is null a new Point is allocated. This version of getLocation is useful if the caller wants to avoid allocating a new Point object on the heap.
getLocation in class Component
rv - the return value, modified to the component's locationrvpublic int getX()
Returns the current x coordinate of the component's origin. This method is preferable to writing component.getBounds().x, or component.getLocation().x because it doesn't cause any heap allocations.
public int getY()
Returns the current y coordinate of the component's origin. This method is preferable to writing component.getBounds().y, or component.getLocation().y because it doesn't cause any heap allocations.
public int getWidth()
Returns the current width of this component. This method is preferable to writing component.getBounds().width, or component.getSize().width because it doesn't cause any heap allocations.
public int getHeight()
Returns the current height of this component. This method is preferable to writing component.getBounds().height, or component.getSize().height because it doesn't cause any heap allocations.
public boolean isOpaque()
Returns true if this component is completely opaque.
An opaque component paints every pixel within its rectangular bounds. A non-opaque component paints only a subset of its pixels or none at all, allowing the pixels underneath it to "show through". Therefore, a component that does not fully paint its pixels provides a degree of transparency.
Subclasses that guarantee to always completely paint their contents should override this method and return true.
isOpaque in class Component
setOpaque(boolean)public void setOpaque(boolean isOpaque)
If true the component paints every pixel within its bounds. Otherwise, the component may not paint some or all of its pixels, allowing the underlying pixels to show through.
The default value of this property is false for JComponent. However, the default value for this property on most standard JComponent subclasses (such as JButton and JTree) is look-and-feel dependent.
isOpaque - true if this component should be opaqueisOpaque()public void computeVisibleRect(Rectangle visibleRect)
Returns the Component's "visible rect rectangle" - the intersection of the visible rectangles for this component and all of its ancestors. The return value is stored in visibleRect.
visibleRect - a Rectangle computed as the intersection of all visible rectangles for this component and all of its ancestors -- this is the return value for this methodgetVisibleRect()public Rectangle getVisibleRect()
Returns the Component's "visible rectangle" - the intersection of this component's visible rectangle, new Rectangle(0, 0, getWidth(), getHeight()), and all of its ancestors' visible rectangles.
public void firePropertyChange(String propertyName,
boolean oldValue,
boolean newValue) Support for reporting bound property changes for boolean properties. This method can be called when a bound property has changed and it will send the appropriate PropertyChangeEvent to any registered PropertyChangeListeners.
firePropertyChange in class Component
propertyName - the property whose value has changedoldValue - the property's previous valuenewValue - the property's new valuepublic void firePropertyChange(String propertyName,
int oldValue,
int newValue) Support for reporting bound property changes for integer properties. This method can be called when a bound property has changed and it will send the appropriate PropertyChangeEvent to any registered PropertyChangeListeners.
firePropertyChange in class Component
propertyName - the property whose value has changedoldValue - the property's previous valuenewValue - the property's new valuepublic void firePropertyChange(String propertyName,
char oldValue,
char newValue) Description copied from class: Component
Reports a bound property change.
firePropertyChange in class Component
propertyName - the programmatic name of the property that was changedoldValue - the old value of the property (as a char)newValue - the new value of the property (as a char)Component.firePropertyChange(java.lang.String, java.lang.Object,
java.lang.Object)protected void fireVetoableChange(String propertyName,
Object oldValue,
Object newValue)
throws PropertyVetoException Supports reporting constrained property changes. This method can be called when a constrained property has changed and it will send the appropriate PropertyChangeEvent to any registered VetoableChangeListeners.
propertyName - the name of the property that was listened onoldValue - the old value of the propertynewValue - the new value of the propertyPropertyVetoException - when the attempt to set the property is vetoed by the componentpublic void addVetoableChangeListener(VetoableChangeListener listener)
Adds a VetoableChangeListener to the listener list. The listener is registered for all properties.
listener - the VetoableChangeListener to be addedpublic void removeVetoableChangeListener(VetoableChangeListener listener)
Removes a VetoableChangeListener from the listener list. This removes a VetoableChangeListener that was registered for all properties.
listener - the VetoableChangeListener to be removedpublic VetoableChangeListener[] getVetoableChangeListeners()
Returns an array of all the vetoable change listeners registered on this component.
VetoableChangeListeners or an empty array if no vetoable change listeners are currently registeredaddVetoableChangeListener(java.beans.VetoableChangeListener), removeVetoableChangeListener(java.beans.VetoableChangeListener)
public Container getTopLevelAncestor()
Returns the top-level ancestor of this component (either the containing Window or Applet), or null if this component has not been added to any container.
Container that this component is in, or null if not in any containerpublic void addAncestorListener(AncestorListener listener)
Registers listener so that it will receive AncestorEvents when it or any of its ancestors move or are made visible or invisible. Events are also sent when the component or its ancestors are added or removed from the containment hierarchy.
listener - the AncestorListener to registerAncestorEventpublic void removeAncestorListener(AncestorListener listener)
Unregisters listener so that it will no longer receive AncestorEvents.
listener - the AncestorListener to be removedaddAncestorListener(javax.swing.event.AncestorListener)public AncestorListener[] getAncestorListeners()
Returns an array of all the ancestor listeners registered on this component.
AncestorListeners or an empty array if no ancestor listeners are currently registeredaddAncestorListener(javax.swing.event.AncestorListener), removeAncestorListener(javax.swing.event.AncestorListener)
public <T extends EventListener> T[] getListeners(Class<T> listenerType)
Returns an array of all the objects currently registered as FooListeners upon this JComponent. FooListeners 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 JComponent c for its mouse listeners with the following code:
MouseListener[] mls = (MouseListener[])(c.getListeners(MouseListener.class));If no such listeners exist, this method returns an empty array.
getListeners in class Container
listenerType - the type of listeners requested; this parameter should specify an interface that descends from java.util.EventListener
FooListeners on this component, 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
getVetoableChangeListeners(), getAncestorListeners()
public void addNotify()
Notifies this component that it now has a parent component. When this method is invoked, the chain of parent components is set up with KeyboardAction event listeners. This method is called by the toolkit internally and should not be called directly by programs.
addNotify in class Container
registerKeyboardAction(java.awt.event.ActionListener, java.lang.String, javax.swing.KeyStroke, int)public void removeNotify()
Notifies this component that it no longer has a parent component. When this method is invoked, any KeyboardActions set up in the the chain of parent components are removed. This method is called by the toolkit internally and should not be called directly by programs.
removeNotify in class Container
registerKeyboardAction(java.awt.event.ActionListener, java.lang.String, javax.swing.KeyStroke, int)public void repaint(long tm,
int x,
int y,
int width,
int height) Adds the specified region to the dirty region list if the component is showing. The component will be repainted after all of the currently pending events have been dispatched.
repaint in class Component
tm - this parameter is not usedx - the x value of the dirty regiony - the y value of the dirty regionwidth - the width of the dirty regionheight - the height of the dirty regionisPaintingOrigin(), Component.isShowing(), RepaintManager.addDirtyRegion(javax.swing.JComponent, int, int, int, int)
public void repaint(Rectangle r)
Adds the specified region to the dirty region list if the component is showing. The component will be repainted after all of the currently pending events have been dispatched.
r - a Rectangle containing the dirty regionisPaintingOrigin(), Component.isShowing(), RepaintManager.addDirtyRegion(javax.swing.JComponent, int, int, int, int)
public void revalidate()
Supports deferred automatic layout.
Calls invalidate and then adds this component's validateRoot to a list of components that need to be validated. Validation will occur after all currently pending events have been dispatched. In other words after this method is called, the first validateRoot (if any) found when walking up the containment hierarchy of this component will be validated. By default, JRootPane, JScrollPane, and JTextField return true from isValidateRoot.
This method will automatically be called on this component when a property value changes such that size, location, or internal layout of this component has been affected. This automatic updating differs from the AWT because programs generally no longer need to invoke validate to get the contents of the GUI to update.
revalidate in class Component
Component.invalidate(), Container.validate(), isValidateRoot(), RepaintManager.addInvalidComponent(javax.swing.JComponent)
public boolean isValidateRoot()
If this method returns true, revalidate calls by descendants of this component will cause the entire tree beginning with this root to be validated. Returns false by default. JScrollPane overrides this method and returns true.
isValidateRoot in class Container
revalidate(), Component.invalidate(), Container.validate(), Container.isValidateRoot()
public boolean isOptimizedDrawingEnabled()
Returns true if this component tiles its children -- that is, if it can guarantee that the children will not overlap. The repainting system is substantially more efficient in this common case. JComponent subclasses that can't make this guarantee, such as JLayeredPane, should override this method to return false.
protected boolean isPaintingOrigin()
Returns true if a paint triggered on a child component should cause painting to originate from this Component, or one of its ancestors.
Calling repaint(long, int, int, int, int) or paintImmediately(int, int, int, int) on a Swing component will result in calling the paintImmediately(int, int, int, int) method of the first ancestor which isPaintingOrigin() returns true, if there are any.
JComponent subclasses that need to be painted when any of their children are repainted should override this method to return true.
false
paintImmediately(int, int, int, int)public void paintImmediately(int x,
int y,
int w,
int h) Paints the specified region in this component and all of its descendants that overlap the region, immediately.
It's rarely necessary to call this method. In most cases it's more efficient to call repaint, which defers the actual painting and can collapse redundant requests into a single paint call. This method is useful if one needs to update the display while the current event is being dispatched.
This method is to be overridden when the dirty region needs to be changed for components that are painting origins.
x - the x value of the region to be paintedy - the y value of the region to be paintedw - the width of the region to be paintedh - the height of the region to be paintedrepaint(long, int, int, int, int), isPaintingOrigin()
public void paintImmediately(Rectangle r)
Paints the specified region now.
r - a Rectangle containing the region to be paintedpublic void setDoubleBuffered(boolean aFlag)
Sets whether this component should use a buffer to paint. If set to true, all the drawing from this component will be done in an offscreen painting buffer. The offscreen painting buffer will the be copied onto the screen. If a Component is buffered and one of its ancestor is also buffered, the ancestor buffer will be used.
aFlag - if true, set this component to be double bufferedpublic boolean isDoubleBuffered()
Returns whether this component should use a buffer to paint.
isDoubleBuffered in class Component
public JRootPane getRootPane()
Returns the JRootPane ancestor for this component.
JRootPane that contains this component, or null if no JRootPane is foundprotected String paramString()
Returns a string representation of this JComponent. This method is intended to be used only for debugging purposes, and the content and format of the returned string may vary between implementations. The returned string may be empty but may not be null.
paramString in class Container
JComponent
@Deprecated public void hide()
Deprecated.
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