/*
* Copyright (c) 1997, 2018, Oracle and/or its affiliates. All rights reserved.
* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
*
* This code is free software; you can redistribute it and/or modify it
* under the terms of the GNU General Public License version 2 only, as
* published by the Free Software Foundation. Oracle designates this
* particular file as subject to the "Classpath" exception as provided
* by Oracle in the LICENSE file that accompanied this code.
*
* This code is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
* version 2 for more details (a copy is included in the LICENSE file that
* accompanied this code).
*
* You should have received a copy of the GNU General Public License version
* 2 along with this work; if not, write to the Free Software Foundation,
* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
*
* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
* or visit www.oracle.com if you need additional information or have any
* questions.
*/
package javax.swing;
import java.beans.*;
import java.util.HashSet;
import java.util.Hashtable;
import java.util.Enumeration;
import java.util.Locale;
import java.util.Vector;
import java.util.EventListener;
import java.util.Set;
import java.awt.*;
import java.awt.event.*;
import java.applet.Applet;
import java.io.Serializable;
import java.io.ObjectOutputStream;
import java.io.ObjectInputStream;
import java.io.IOException;
import java.io.ObjectInputValidation;
import java.io.InvalidObjectException;
import java.util.concurrent.atomic.AtomicBoolean;
import javax.swing.border.*;
import javax.swing.event.*;
import javax.swing.plaf.*;
import static javax.swing.ClientPropertyKey.*;
import javax.accessibility.*;
import sun.awt.AWTAccessor;
import sun.awt.SunToolkit;
import sun.swing.SwingAccessor;
import sun.swing.SwingUtilities2;
/**
* The base class for all Swing components except top-level containers.
* To use a component that inherits from <code>JComponent</code>,
* you must place the component in a containment hierarchy
* whose root is a top-level Swing container.
* Top-level Swing containers --
* such as <code>JFrame</code>, <code>JDialog</code>,
* and <code>JApplet</code> --
* are specialized components
* that provide a place for other Swing components to paint themselves.
* For an explanation of containment hierarchies, see
* <a
href="https://docs.oracle.com/javase/tutorial/uiswing/components/toplevel.html">Swing Components and the Containment Hierarchy</a>,
* a section in <em>The Java Tutorial</em>.
*
* <p>
* The <code>JComponent</code> class provides:
* <ul>
* <li>The base class for both standard and custom components
* that use the Swing architecture.
* <li>A "pluggable look and feel" (L&F) that can be specified by the
* programmer or (optionally) selected by the user at runtime.
* The look and feel for each component is provided by a
* <em>UI delegate</em> -- an object that descends from
* {@link javax.swing.plaf.ComponentUI}.
* See <a
* href="https://docs.oracle.com/javase/tutorial/uiswing/lookandfeel/plaf.html">How
* to Set the Look and Feel</a>
* in <em>The Java Tutorial</em>
* for more information.
* <li>Comprehensive keystroke handling.
* See the document <a
* href="https://docs.oracle.com/javase/tutorial/uiswing/misc/keybinding.html">How to Use Key Bindings</a>,
* an article in <em>The Java Tutorial</em>,
* for more information.
* <li>Support for tool tips --
* short descriptions that pop up when the cursor lingers
* over a component.
* See <a
* href="https://docs.oracle.com/javase/tutorial/uiswing/components/tooltip.html">How
* to Use Tool Tips</a>
* in <em>The Java Tutorial</em>
* for more information.
* <li>Support for accessibility.
* <code>JComponent</code> contains all of the methods in the
* <code>Accessible</code> interface,
* but it doesn't actually implement the interface. That is the
* responsibility of the individual classes
* that extend <code>JComponent</code>.
* <li>Support for component-specific properties.
* With the {@link #putClientProperty}
* and {@link #getClientProperty} methods,
* you can associate name-object pairs
* with any object that descends from <code>JComponent</code>.
* <li>An infrastructure for painting
* that includes double buffering and support for borders.
* For more information see <a
* href="http://www.oracle.com/technetwork/java/painting-140037.html#swing">Painting</a> and
* <a href="https://docs.oracle.com/javase/tutorial/uiswing/components/border.html">How
* to Use Borders</a>,
* both of which are sections in <em>The Java Tutorial</em>.
* </ul>
* For more information on these subjects, see the
* {@link javax.swing Swing package description}
* and <em>The Java Tutorial</em> section
* <a href="https://docs.oracle.com/javase/tutorial/uiswing/components/jcomponent.html">The JComponent Class</a>.
* <p>
* <code>JComponent</code> and its subclasses document default values
* for certain properties. For example, <code>JTable</code> documents the
* default row height as 16. Each <code>JComponent</code> subclass
* that has a <code>ComponentUI</code> will create the
* <code>ComponentUI</code> as part of its constructor. In order
* to provide a particular look and feel each
* <code>ComponentUI</code> may set properties back on the
* <code>JComponent</code> that created it. For example, a custom
* look and feel may require <code>JTable</code>s to have a row
* height of 24. The documented defaults are the value of a property
* BEFORE the <code>ComponentUI</code> has been installed. If you
* need a specific value for a particular property you should
* explicitly set it.
* <p>
* In release 1.4, the focus subsystem was rearchitected.
* For more information, see
* <a href="https://docs.oracle.com/javase/tutorial/uiswing/misc/focus.html">
* How to Use the Focus Subsystem</a>,
* a section in <em>The Java Tutorial</em>.
* <p>
* <strong>Warning:</strong> Swing is not thread safe. For more
* information see <a
* href="package-summary.html#threading">Swing's Threading
* Policy</a>.
* <p>
* <strong>Warning:</strong>
* 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 <code>java.beans</code> package.
* Please see {@link java.beans.XMLEncoder}.
*
* @see KeyStroke
* @see Action
* @see #setBorder
* @see #registerKeyboardAction
* @see JOptionPane
* @see #setDebugGraphicsOptions
* @see #setToolTipText
* @see #setAutoscrolls
*
* @author Hans Muller
* @author Arnaud Weber
* @since 1.2
*/
@JavaBean(defaultProperty = "UIClassID")
@SuppressWarnings("serial") // Same-version serialization only
public abstract class JComponent extends Container implements Serializable,
TransferHandler.HasGetTransferHandler
{
/**
* @see #getUIClassID
* @see #writeObject
*/
private static final String uiClassID = "ComponentUI";
/**
* @see #readObject
*/
private static final Hashtable<ObjectInputStream, ReadObjectCallback> readObjectCallbacks =
new Hashtable<ObjectInputStream, ReadObjectCallback>(1);
/**
* Keys to use for forward focus traversal when the JComponent is
* managing focus.
*/
private static Set<KeyStroke> managingFocusForwardTraversalKeys;
/**
* Keys to use for backward focus traversal when the JComponent is
* managing focus.
*/
private static Set<KeyStroke> managingFocusBackwardTraversalKeys;
// Following are the possible return values from getObscuredState.
private static final int NOT_OBSCURED = 0;
private static final int PARTIALLY_OBSCURED = 1;
private static final int COMPLETELY_OBSCURED = 2;
/**
* Set to true when DebugGraphics has been loaded.
*/
static boolean DEBUG_GRAPHICS_LOADED;
/**
* Key used to look up a value from the AppContext to determine the
* JComponent the InputVerifier is running for. That is, if
* AppContext.get(INPUT_VERIFIER_SOURCE_KEY) returns non-null, it
* indicates the EDT is calling into the InputVerifier from the
* returned component.
*/
private static final Object INPUT_VERIFIER_SOURCE_KEY =
new StringBuilder("InputVerifierSourceKey");
/* The following fields support set methods for the corresponding
* java.awt.Component properties.
*/
private boolean isAlignmentXSet;
private float alignmentX;
private boolean isAlignmentYSet;
private float alignmentY;
/**
* Backing store for JComponent properties and listeners
*/
/** The look and feel delegate for this component. */
protected transient ComponentUI ui;
/** A list of event listeners for this component. */
protected EventListenerList listenerList = new EventListenerList();
private transient ArrayTable clientProperties;
private VetoableChangeSupport vetoableChangeSupport;
/**
* Whether or not autoscroll has been enabled.
*/
private boolean autoscrolls;
private Border border;
private int flags;
/* Input verifier for this component */
private InputVerifier inputVerifier = null;
private boolean verifyInputWhenFocusTarget = true;
/**
* Set in <code>_paintImmediately</code>.
* Will indicate the child that initiated the painting operation.
* If <code>paintingChild</code> is opaque, no need to paint
* any child components after <code>paintingChild</code>.
* Test used in <code>paintChildren</code>.
*/
transient Component paintingChild;
/**
* Constant used for <code>registerKeyboardAction</code> that
* means that the command should be invoked when
* the component has the focus.
*/
public static final int WHEN_FOCUSED = 0;
/**
* Constant used for <code>registerKeyboardAction</code> 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_ANCESTOR_OF_FOCUSED_COMPONENT = 1;
/**
* Constant used for <code>registerKeyboardAction</code> 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 WHEN_IN_FOCUSED_WINDOW = 2;
/**
* Constant used by some of the APIs to mean that no condition is defined.
*/
public static final int UNDEFINED_CONDITION = -1;
/**
* The key used by <code>JComponent</code> to access keyboard bindings.
*/
private static final String KEYBOARD_BINDINGS_KEY = "_KeyboardBindings";
/**
* An array of <code>KeyStroke</code>s used for
* <code>WHEN_IN_FOCUSED_WINDOW</code> are stashed
* in the client properties under this string.
*/
private static final String WHEN_IN_FOCUSED_WINDOW_BINDINGS = "_WhenInFocusedWindow";
/**
* The comment to display when the cursor is over the component,
* also known as a "value tip", "flyover help", or "flyover label".
*/
public static final String TOOL_TIP_TEXT_KEY = "ToolTipText";
private static final String NEXT_FOCUS = "nextFocus";
/**
* <code>JPopupMenu</code> assigned to this component
* and all of its children
*/
private JPopupMenu popupMenu;
/** Private flags **/
private static final int IS_DOUBLE_BUFFERED = 0;
private static final int ANCESTOR_USING_BUFFER = 1;
private static final int IS_PAINTING_TILE = 2;
private static final int IS_OPAQUE = 3;
private static final int KEY_EVENTS_ENABLED = 4;
private static final int FOCUS_INPUTMAP_CREATED = 5;
private static final int ANCESTOR_INPUTMAP_CREATED = 6;
private static final int WIF_INPUTMAP_CREATED = 7;
private static final int ACTIONMAP_CREATED = 8;
private static final int CREATED_DOUBLE_BUFFER = 9;
// bit 10 is free
private static final int IS_PRINTING = 11;
private static final int IS_PRINTING_ALL = 12;
private static final int IS_REPAINTING = 13;
/** Bits 14-21 are used to handle nested writeObject calls. **/
private static final int WRITE_OBJ_COUNTER_FIRST = 14;
private static final int RESERVED_1 = 15;
private static final int RESERVED_2 = 16;
private static final int RESERVED_3 = 17;
private static final int RESERVED_4 = 18;
private static final int RESERVED_5 = 19;
private static final int RESERVED_6 = 20;
private static final int WRITE_OBJ_COUNTER_LAST = 21;
private static final int REQUEST_FOCUS_DISABLED = 22;
private static final int INHERITS_POPUP_MENU = 23;
private static final int OPAQUE_SET = 24;
private static final int AUTOSCROLLS_SET = 25;
private static final int FOCUS_TRAVERSAL_KEYS_FORWARD_SET = 26;
private static final int FOCUS_TRAVERSAL_KEYS_BACKWARD_SET = 27;
private transient AtomicBoolean revalidateRunnableScheduled = new AtomicBoolean(false);
/**
* Temporary rectangles.
*/
private static java.util.List<Rectangle> tempRectangles = new java.util.ArrayList<Rectangle>(11);
/** Used for <code>WHEN_FOCUSED</code> bindings. */
private InputMap focusInputMap;
/** Used for <code>WHEN_ANCESTOR_OF_FOCUSED_COMPONENT</code> bindings. */
private InputMap ancestorInputMap;
/** Used for <code>WHEN_IN_FOCUSED_KEY</code> bindings. */
private ComponentInputMap windowInputMap;
/** ActionMap. */
private ActionMap actionMap;
/** Key used to store the default locale in an AppContext **/
private static final String defaultLocale = "JComponent.defaultLocale";
private static Component componentObtainingGraphicsFrom;
private static Object componentObtainingGraphicsFromLock = new
StringBuilder("componentObtainingGraphicsFrom");
/**
* AA text hints.
*/
private transient Object aaHint;
private transient Object lcdRenderingHint;
static {
SwingAccessor.setJComponentAccessor(new SwingAccessor.JComponentAccessor() {
@Override
public boolean getFlag(JComponent comp, int aFlag) {
return comp.getFlag(aFlag);
}
@Override
public void compWriteObjectNotify(JComponent comp) {
comp.compWriteObjectNotify();
}
});
}
static Graphics safelyGetGraphics(Component c) {
return safelyGetGraphics(c, SwingUtilities.getRoot(c));
}
static Graphics safelyGetGraphics(Component c, Component root) {
synchronized(componentObtainingGraphicsFromLock) {
componentObtainingGraphicsFrom = root;
Graphics g = c.getGraphics();
componentObtainingGraphicsFrom = null;
return g;
}
}
static void getGraphicsInvoked(Component root) {
if (!JComponent.isComponentObtainingGraphicsFrom(root)) {
JRootPane rootPane = ((RootPaneContainer)root).getRootPane();
if (rootPane != null) {
rootPane.disableTrueDoubleBuffering();
}
}
}
/**
* Returns true if {@code c} is the component the graphics is being
* requested of. This is intended for use when getGraphics is invoked.
*/
private static boolean isComponentObtainingGraphicsFrom(Component c) {
synchronized(componentObtainingGraphicsFromLock) {
return (componentObtainingGraphicsFrom == c);
}
}
/**
* Returns the Set of <code>KeyStroke</code>s to use if the component
* is managing focus for forward focus traversal.
*/
@SuppressWarnings("deprecation")
static Set<KeyStroke> getManagingFocusForwardTraversalKeys() {
synchronized(JComponent.class) {
if (managingFocusForwardTraversalKeys == null) {
managingFocusForwardTraversalKeys = new HashSet<KeyStroke>(1);
managingFocusForwardTraversalKeys.add(
KeyStroke.getKeyStroke(KeyEvent.VK_TAB,
InputEvent.CTRL_MASK));
}
}
return managingFocusForwardTraversalKeys;
}
/**
* Returns the Set of <code>KeyStroke</code>s to use if the component
* is managing focus for backward focus traversal.
*/
@SuppressWarnings("deprecation")
static Set<KeyStroke> getManagingFocusBackwardTraversalKeys() {
synchronized(JComponent.class) {
if (managingFocusBackwardTraversalKeys == null) {
managingFocusBackwardTraversalKeys = new HashSet<KeyStroke>(1);
managingFocusBackwardTraversalKeys.add(
KeyStroke.getKeyStroke(KeyEvent.VK_TAB,
InputEvent.SHIFT_MASK |
InputEvent.CTRL_MASK));
}
}
return managingFocusBackwardTraversalKeys;
}
private static Rectangle fetchRectangle() {
synchronized(tempRectangles) {
Rectangle rect;
int size = tempRectangles.size();
if (size > 0) {
rect = tempRectangles.remove(size - 1);
}
else {
rect = new Rectangle(0, 0, 0, 0);
}
return rect;
}
}
private static void recycleRectangle(Rectangle rect) {
synchronized(tempRectangles) {
tempRectangles.add(rect);
}
}
/**
* Sets whether or not <code>getComponentPopupMenu</code> should delegate
* to the parent if this component does not have a <code>JPopupMenu</code>
* assigned to it.
* <p>
* The default value for this is false, but some <code>JComponent</code>
* subclasses that are implemented as a number of <code>JComponent</code>s
* may set this to true.
* <p>
* This is a bound property.
*
* @param value whether or not the JPopupMenu is inherited
* @see #setComponentPopupMenu
* @since 1.5
*/
@BeanProperty(description
= "Whether or not the JPopupMenu is inherited")
public void setInheritsPopupMenu(boolean value) {
boolean oldValue = getFlag(INHERITS_POPUP_MENU);
setFlag(INHERITS_POPUP_MENU, value);
firePropertyChange("inheritsPopupMenu", oldValue, value);
}
/**
* Returns true if the JPopupMenu should be inherited from the parent.
*
* @return true if the JPopupMenu should be inherited from the parent
* @see #setComponentPopupMenu
* @since 1.5
*/
public boolean getInheritsPopupMenu() {
return getFlag(INHERITS_POPUP_MENU);
}
/**
* Sets the <code>JPopupMenu</code> for this <code>JComponent</code>.
* The UI is responsible for registering bindings and adding the necessary
* listeners such that the <code>JPopupMenu</code> will be shown at
* the appropriate time. When the <code>JPopupMenu</code> is shown
* depends upon the look and feel: some may show it on a mouse event,
* some may enable a key binding.
* <p>
* If <code>popup</code> is null, and <code>getInheritsPopupMenu</code>
* returns true, then <code>getComponentPopupMenu</code> will be delegated
* to the parent. This provides for a way to make all child components
* inherit the popupmenu of the parent.
* <p>
* This is a bound property.
*
* @param popup - the popup that will be assigned to this component
* may be null
* @see #getComponentPopupMenu
* @since 1.5
*/
@BeanProperty(preferred = true, description
= "Popup to show")
public void setComponentPopupMenu(JPopupMenu popup) {
if(popup != null) {
enableEvents(AWTEvent.MOUSE_EVENT_MASK);
}
JPopupMenu oldPopup = this.popupMenu;
this.popupMenu = popup;
firePropertyChange("componentPopupMenu", oldPopup, popup);
}
/**
* Returns <code>JPopupMenu</code> that assigned for this component.
* If this component does not have a <code>JPopupMenu</code> assigned
* to it and <code>getInheritsPopupMenu</code> is true, this
* will return <code>getParent().getComponentPopupMenu()</code> (assuming
* the parent is valid.)
*
* @return <code>JPopupMenu</code> assigned for this component
* or <code>null</code> if no popup assigned
* @see #setComponentPopupMenu
* @since 1.5
*/
@SuppressWarnings("deprecation")
public JPopupMenu getComponentPopupMenu() {
if(!getInheritsPopupMenu()) {
return popupMenu;
}
if(popupMenu == null) {
// Search parents for its popup
Container parent = getParent();
while (parent != null) {
if(parent instanceof JComponent) {
return ((JComponent)parent).getComponentPopupMenu();
}
if(parent instanceof Window ||
parent instanceof Applet) {
// Reached toplevel, break and return null
break;
}
parent = parent.getParent();
}
return null;
}
return popupMenu;
}
/**
* Default <code>JComponent</code> constructor. This constructor does
* very little initialization beyond calling the <code>Container</code>
* constructor. For example, the initial layout manager is
* <code>null</code>. It does, however, set the component's locale
* property to the value returned by
* <code>JComponent.getDefaultLocale</code>.
*
* @see #getDefaultLocale
*/
public JComponent() {
super();
// We enable key events on all JComponents so that accessibility
// bindings will work everywhere. This is a partial fix to BugID
// 4282211.
enableEvents(AWTEvent.KEY_EVENT_MASK);
if (isManagingFocus()) {
LookAndFeel.installProperty(this,
"focusTraversalKeysForward",
getManagingFocusForwardTraversalKeys());
LookAndFeel.installProperty(this,
"focusTraversalKeysBackward",
getManagingFocusBackwardTraversalKeys());
}
super.setLocale( JComponent.getDefaultLocale() );
}
/**
* Resets the UI property to a value from the current look and feel.
* <code>JComponent</code> subclasses must override this method
* like this:
* <pre>
* public void updateUI() {
* setUI((SliderUI)UIManager.getUI(this);
* }
* </pre>
*
* @see #setUI
* @see UIManager#getLookAndFeel
* @see UIManager#getUI
*/
public void updateUI() {}
/**
* Returns the look and feel delegate that renders this component.
*
* @return the {@code ComponentUI} object that renders this component
* @since 9
*/
@Transient
public ComponentUI getUI() {
return ui;
}
/**
* Sets the look and feel delegate for this component.
* <code>JComponent</code> subclasses generally override this method
* to narrow the argument type. For example, in <code>JSlider</code>:
* <pre>
* public void setUI(SliderUI newUI) {
* super.setUI(newUI);
* }
* </pre>
* <p>
* Additionally <code>JComponent</code> subclasses must provide a
* <code>getUI</code> method that returns the correct type. For example:
* <pre>
* public SliderUI getUI() {
* return (SliderUI)ui;
* }
* </pre>
*
* @param newUI the new UI delegate
* @see #updateUI
* @see UIManager#getLookAndFeel
* @see UIManager#getUI
*/
@BeanProperty(hidden = true, visualUpdate = true, description
= "The component's look and feel delegate.")
protected void setUI(ComponentUI newUI) {
/* We do not check that the UI instance is different
* before allowing the switch in order to enable the
* same UI instance *with different default settings*
* to be installed.
*/
uninstallUIAndProperties();
// aaText shouldn't persist between look and feels, reset it.
aaHint = UIManager.getDefaults().get(
RenderingHints.KEY_TEXT_ANTIALIASING);
lcdRenderingHint = UIManager.getDefaults().get(
RenderingHints.KEY_TEXT_LCD_CONTRAST);
ComponentUI oldUI = ui;
ui = newUI;
if (ui != null) {
ui.installUI(this);
}
firePropertyChange("UI", oldUI, newUI);
revalidate();
repaint();
}
/**
* Uninstalls the UI, if any, and any client properties designated
* as being specific to the installed UI - instances of
* {@code UIClientPropertyKey}.
*/
private void uninstallUIAndProperties() {
if (ui != null) {
ui.uninstallUI(this);
//clean UIClientPropertyKeys from client properties
if (clientProperties != null) {
synchronized(clientProperties) {
Object[] clientPropertyKeys =
clientProperties.getKeys(null);
if (clientPropertyKeys != null) {
for (Object key : clientPropertyKeys) {
if (key instanceof UIClientPropertyKey) {
putClientProperty(key, null);
}
}
}
}
}
}
}
/**
* Returns the <code>UIDefaults</code> key used to
* look up the name of the <code>swing.plaf.ComponentUI</code>
* class that defines the look and feel
* for this component. Most applications will never need to
* call this method. Subclasses of <code>JComponent</code> that support
* pluggable look and feel should override this method to
* return a <code>UIDefaults</code> key that maps to the
* <code>ComponentUI</code> subclass that defines their look and feel.
*
* @return the <code>UIDefaults</code> key for a
* <code>ComponentUI</code> subclass
* @see UIDefaults#getUI
*/
@BeanProperty(bound = false, expert = true, description
= "UIClassID")
public String getUIClassID() {
return uiClassID;
}
/**
* Returns the graphics object used to paint this component.
* If <code>DebugGraphics</code> is turned on we create a new
* <code>DebugGraphics</code> object if necessary.
* Otherwise we just configure the
* specified graphics object's foreground and font.
*
* @param g the original <code>Graphics</code> object
* @return a <code>Graphics</code> object configured for this component
*/
protected Graphics getComponentGraphics(Graphics g) {
Graphics componentGraphics = g;
if (ui != null && DEBUG_GRAPHICS_LOADED) {
if ((DebugGraphics.debugComponentCount() != 0) &&
(shouldDebugGraphics() != 0) &&
!(g instanceof DebugGraphics)) {
componentGraphics = new DebugGraphics(g,this);
}
}
componentGraphics.setColor(getForeground());
componentGraphics.setFont(getFont());
return componentGraphics;
}
/**
* Calls the UI delegate's paint method, if the UI delegate
* is non-<code>null</code>. We pass the delegate a copy of the
* <code>Graphics</code> object to protect the rest of the
* paint code from irrevocable changes
* (for example, <code>Graphics.translate</code>).
* <p>
* If you override this in a subclass you should not make permanent
* changes to the passed in <code>Graphics</code>. For example, you
* should not alter the clip <code>Rectangle</code> or modify the
* transform. If you need to do these operations you may find it
* easier to create a new <code>Graphics</code> from the passed in
* <code>Graphics</code> and manipulate it. Further, if you do not
* invoke super's implementation you must honor the opaque property, that is
* if this component is opaque, you must completely fill in the background
* in an opaque color. If you do not honor the opaque property you
* will likely see visual artifacts.
* <p>
* The passed in <code>Graphics</code> 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.
*
* @param g the <code>Graphics</code> object to protect
* @see #paint
* @see ComponentUI
*/
protected void paintComponent(Graphics g) {
if (ui != null) {
Graphics scratchGraphics = (g == null) ? null : g.create();
try {
ui.update(scratchGraphics, this);
}
finally {
scratchGraphics.dispose();
}
}
}
/**
* Paints this component's children.
* If <code>shouldUseBuffer</code> 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.
* @param g the <code>Graphics</code> context in which to paint
* @see #paint
* @see java.awt.Container#paint
*/
protected void paintChildren(Graphics g) {
Graphics sg = g;
synchronized(getTreeLock()) {
int i = getComponentCount() - 1;
if (i < 0) {
return;
}
// If we are only to paint to a specific child, determine
// its index.
if (paintingChild != null &&
(paintingChild instanceof JComponent) &&
paintingChild.isOpaque()) {
for (; i >= 0; i--) {
if (getComponent(i) == paintingChild){
break;
}
}
}
Rectangle tmpRect = fetchRectangle();
boolean checkSiblings = (!isOptimizedDrawingEnabled() &&
checkIfChildObscuredBySibling());
Rectangle clipBounds = null;
if (checkSiblings) {
clipBounds = sg.getClipBounds();
if (clipBounds == null) {
clipBounds = new Rectangle(0, 0, getWidth(),
getHeight());
}
}
boolean printing = getFlag(IS_PRINTING);
final Window window = SwingUtilities.getWindowAncestor(this);
final boolean isWindowOpaque = window == null || window.isOpaque();
for (; i >= 0 ; i--) {
Component comp = getComponent(i);
if (comp == null) {
continue;
}
final boolean isJComponent = comp instanceof JComponent;
// Enable painting of heavyweights in non-opaque windows.
// See 6884960
if ((!isWindowOpaque || isJComponent ||
isLightweightComponent(comp)) && comp.isVisible())
{
Rectangle cr;
cr = comp.getBounds(tmpRect);
Shape clip = g.getClip();
boolean hitClip = (clip != null)
? clip.intersects(cr.x, cr.y, cr.width, cr.height)
: true;
if (hitClip) {
if (checkSiblings && i > 0) {
int x = cr.x;
int y = cr.y;
int width = cr.width;
int height = cr.height;
SwingUtilities.computeIntersection
(clipBounds.x, clipBounds.y,
clipBounds.width, clipBounds.height, cr);
if(getObscuredState(i, cr.x, cr.y, cr.width,
cr.height) == COMPLETELY_OBSCURED) {
continue;
}
cr.x = x;
cr.y = y;
cr.width = width;
cr.height = height;
}
Graphics cg = sg.create(cr.x, cr.y, cr.width,
cr.height);
cg.setColor(comp.getForeground());
cg.setFont(comp.getFont());
boolean shouldSetFlagBack = false;
try {
if(isJComponent) {
if(getFlag(ANCESTOR_USING_BUFFER)) {
((JComponent)comp).setFlag(
ANCESTOR_USING_BUFFER,true);
shouldSetFlagBack = true;
}
if(getFlag(IS_PAINTING_TILE)) {
((JComponent)comp).setFlag(
IS_PAINTING_TILE,true);
shouldSetFlagBack = true;
}
if(!printing) {
comp.paint(cg);
}
else {
if (!getFlag(IS_PRINTING_ALL)) {
comp.print(cg);
}
else {
comp.printAll(cg);
}
}
} else {
// The component is either lightweight, or
// heavyweight in a non-opaque window
if (!printing) {
comp.paint(cg);
}
else {
if (!getFlag(IS_PRINTING_ALL)) {
comp.print(cg);
}
else {
comp.printAll(cg);
}
}
}
} finally {
cg.dispose();
if(shouldSetFlagBack) {
((JComponent)comp).setFlag(
ANCESTOR_USING_BUFFER,false);
((JComponent)comp).setFlag(
IS_PAINTING_TILE,false);
}
}
}
}
}
recycleRectangle(tmpRect);
}
}
/**
* Paints the component's border.
* <p>
* If you override this in a subclass you should not make permanent
* changes to the passed in <code>Graphics</code>. For example, you
* should not alter the clip <code>Rectangle</code> or modify the
* transform. If you need to do these operations you may find it
* easier to create a new <code>Graphics</code> from the passed in
* <code>Graphics</code> and manipulate it.
*
* @param g the <code>Graphics</code> context in which to paint
*
* @see #paint
* @see #setBorder
*/
protected void paintBorder(Graphics g) {
Border border = getBorder();
if (border != null) {
border.paintBorder(this, g, 0, 0, getWidth(), getHeight());
}
}
/**
* Calls <code>paint</code>. Doesn't clear the background but see
* <code>ComponentUI.update</code>, which is called by
* <code>paintComponent</code>.
*
* @param g the <code>Graphics</code> context in which to paint
* @see #paint
* @see #paintComponent
* @see javax.swing.plaf.ComponentUI
*/
public void update(Graphics g) {
paint(g);
}
/**
* Invoked by Swing to draw components.
* Applications should not invoke <code>paint</code> directly,
* but should instead use the <code>repaint</code> method to
* schedule the component for redrawing.
* <p>
* This method actually delegates the work of painting to three
* protected methods: <code>paintComponent</code>,
* <code>paintBorder</code>,
* and <code>paintChildren</code>. 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
* <code>paint</code> method should just override
* <code>paintComponent</code>.
*
* @param g the <code>Graphics</code> context in which to paint
* @see #paintComponent
* @see #paintBorder
* @see #paintChildren
* @see #getComponentGraphics
* @see #repaint
*/
public void paint(Graphics g) {
boolean shouldClearPaintFlags = false;
if ((getWidth() <= 0) || (getHeight() <= 0)) {
return;
}
Graphics componentGraphics = getComponentGraphics(g);
Graphics co = componentGraphics.create();
try {
RepaintManager repaintManager = RepaintManager.currentManager(this);
Rectangle clipRect = co.getClipBounds();
int clipX;
int clipY;
int clipW;
int clipH;
if (clipRect == null) {
clipX = clipY = 0;
clipW = getWidth();
clipH = getHeight();
}
else {
clipX = clipRect.x;
clipY = clipRect.y;
clipW = clipRect.width;
clipH = clipRect.height;
}
if(clipW > getWidth()) {
clipW = getWidth();
}
if(clipH > getHeight()) {
clipH = getHeight();
}
if(getParent() != null && !(getParent() instanceof JComponent)) {
adjustPaintFlags();
shouldClearPaintFlags = true;
}
int bw,bh;
boolean printing = getFlag(IS_PRINTING);
if (!printing && repaintManager.isDoubleBufferingEnabled() &&
!getFlag(ANCESTOR_USING_BUFFER) && isDoubleBuffered() &&
(getFlag(IS_REPAINTING) || repaintManager.isPainting()))
{
repaintManager.beginPaint();
try {
repaintManager.paint(this, this, co, clipX, clipY, clipW,
clipH);
} finally {
repaintManager.endPaint();
}
}
else {
// Will ocassionaly happen in 1.2, especially when printing.
if (clipRect == null) {
co.setClip(clipX, clipY, clipW, clipH);
}
if (!rectangleIsObscured(clipX,clipY,clipW,clipH)) {
if (!printing) {
paintComponent(co);
paintBorder(co);
}
else {
printComponent(co);
printBorder(co);
}
}
if (!printing) {
paintChildren(co);
}
else {
printChildren(co);
}
}
} finally {
co.dispose();
if(shouldClearPaintFlags) {
setFlag(ANCESTOR_USING_BUFFER,false);
setFlag(IS_PAINTING_TILE,false);
setFlag(IS_PRINTING,false);
setFlag(IS_PRINTING_ALL,false);
}
}
}
// paint forcing use of the double buffer. This is used for historical
// reasons: JViewport, when scrolling, previously directly invoked paint
// while turning off double buffering at the RepaintManager level, this
// codes simulates that.
void paintForceDoubleBuffered(Graphics g) {
RepaintManager rm = RepaintManager.currentManager(this);
Rectangle clip = g.getClipBounds();
rm.beginPaint();
setFlag(IS_REPAINTING, true);
try {
rm.paint(this, this, g, clip.x, clip.y, clip.width, clip.height);
} finally {
rm.endPaint();
setFlag(IS_REPAINTING, false);
}
}
/**
* Returns true if this component, or any of its ancestors, are in
* the processing of painting.
*/
boolean isPainting() {
Container component = this;
while (component != null) {
if (component instanceof JComponent &&
((JComponent)component).getFlag(ANCESTOR_USING_BUFFER)) {
return true;
}
component = component.getParent();
}
return false;
}
private void adjustPaintFlags() {
JComponent jparent;
Container parent;
for(parent = getParent() ; parent != null ; parent =
parent.getParent()) {
if(parent instanceof JComponent) {
jparent = (JComponent) parent;
if(jparent.getFlag(ANCESTOR_USING_BUFFER))
setFlag(ANCESTOR_USING_BUFFER, true);
if(jparent.getFlag(IS_PAINTING_TILE))
setFlag(IS_PAINTING_TILE, true);
if(jparent.getFlag(IS_PRINTING))
setFlag(IS_PRINTING, true);
if(jparent.getFlag(IS_PRINTING_ALL))
setFlag(IS_PRINTING_ALL, true);
break;
}
}
}
/**
* Invoke this method to print the component. This method invokes
* <code>print</code> on the component.
*
* @param g the <code>Graphics</code> context in which to paint
* @see #print
* @see #printComponent
* @see #printBorder
* @see #printChildren
*/
public void printAll(Graphics g) {
setFlag(IS_PRINTING_ALL, true);
try {
print(g);
}
finally {
setFlag(IS_PRINTING_ALL, false);
}
}
/**
* Invoke this method to print the component to the specified
* <code>Graphics</code>. This method will result in invocations
* of <code>printComponent</code>, <code>printBorder</code> and
* <code>printChildren</code>. 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:
* <pre>
* 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);
* }
* }
* </pre>
* <p>
* 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 <code>isPaintingForPrint</code> method provides
* this ability and its return value will be changed by this method: to
* <code>true</code> immediately before rendering and to <code>false</code>
* immediately after. With each change a property change event is fired on
* this component with the name <code>"paintingForPrint"</code>.
* <p>
* 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
* <code>Graphics</code>.
*
* @param g the <code>Graphics</code> context in which to paint
* @see #printComponent
* @see #printBorder
* @see #printChildren
* @see #isPaintingForPrint
*/
public void print(Graphics g) {
setFlag(IS_PRINTING, true);
firePropertyChange("paintingForPrint", false, true);
try {
paint(g);
}
finally {
setFlag(IS_PRINTING, false);
firePropertyChange("paintingForPrint", true, false);
}
}
/**
* This is invoked during a printing operation. This is implemented to
* invoke <code>paintComponent</code> on the component. Override this
* if you wish to add special painting behavior when printing.
*
* @param g the <code>Graphics</code> context in which to paint
* @see #print
* @since 1.3
*/
protected void printComponent(Graphics g) {
paintComponent(g);
}
/**
* Prints this component's children. This is implemented to invoke
* <code>paintChildren</code> on the component. Override this if you
* wish to print the children differently than painting.
*
* @param g the <code>Graphics</code> context in which to paint
* @see #print
* @since 1.3
*/
protected void printChildren(Graphics g) {
paintChildren(g);
}
/**
* Prints the component's border. This is implemented to invoke
* <code>paintBorder</code> on the component. Override this if you
* wish to print the border differently that it is painted.
*
* @param g the <code>Graphics</code> context in which to paint
* @see #print
* @since 1.3
*/
protected void printBorder(Graphics g) {
paintBorder(g);
}
/**
* 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.
*
* @return true if the component is currently painting a tile,
* false otherwise
*/
@BeanProperty(bound = false)
public boolean isPaintingTile() {
return getFlag(IS_PAINTING_TILE);
}
/**
* Returns <code>true</code> if the current painting operation on this
* component is part of a <code>print</code> operation. This method is
* useful when you want to customize what you print versus what you show
* on the screen.
* <p>
* You can detect changes in the value of this property by listening for
* property change events on this component with name
* <code>"paintingForPrint"</code>.
* <p>
* 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 {@link javax.swing.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 <code>true</code> when, and only
* when, the table is being painted as part of the printing process.
*
* @return true if the current painting operation on this component
* is part of a print operation
* @see #print
* @since 1.6
*/
@BeanProperty(bound = false)
public final boolean isPaintingForPrint() {
return getFlag(IS_PRINTING);
}
/**
* In release 1.4, the focus subsystem was rearchitected.
* For more information, see
* <a href="https://docs.oracle.com/javase/tutorial/uiswing/misc/focus.html">
* How to Use the Focus Subsystem</a>,
* a section in <em>The Java Tutorial</em>.
* <p>
* Changes this <code>JComponent</code>'s focus traversal keys to
* CTRL+TAB and CTRL+SHIFT+TAB. Also prevents
* <code>SortingFocusTraversalPolicy</code> from considering descendants
* of this JComponent when computing a focus traversal cycle.
*
* @return false
* @see java.awt.Component#setFocusTraversalKeys
* @see SortingFocusTraversalPolicy
* @deprecated As of 1.4, replaced by
* <code>Component.setFocusTraversalKeys(int, Set)</code> and
* <code>Container.setFocusCycleRoot(boolean)</code>.
*/
@Deprecated
@BeanProperty(bound = false)
public boolean isManagingFocus() {
return false;
}
private void registerNextFocusableComponent() {
registerNextFocusableComponent(getNextFocusableComponent());
}
private void registerNextFocusableComponent(Component
nextFocusableComponent) {
if (nextFocusableComponent == null) {
return;
}
Container nearestRoot =
(isFocusCycleRoot()) ? this : getFocusCycleRootAncestor();
FocusTraversalPolicy policy = nearestRoot.getFocusTraversalPolicy();
if (!(policy instanceof LegacyGlueFocusTraversalPolicy)) {
policy = new LegacyGlueFocusTraversalPolicy(policy);
nearestRoot.setFocusTraversalPolicy(policy);
}
((LegacyGlueFocusTraversalPolicy)policy).
setNextFocusableComponent(this, nextFocusableComponent);
}
private void deregisterNextFocusableComponent() {
Component nextFocusableComponent = getNextFocusableComponent();
if (nextFocusableComponent == null) {
return;
}
Container nearestRoot =
(isFocusCycleRoot()) ? this : getFocusCycleRootAncestor();
if (nearestRoot == null) {
return;
}
FocusTraversalPolicy policy = nearestRoot.getFocusTraversalPolicy();
if (policy instanceof LegacyGlueFocusTraversalPolicy) {
((LegacyGlueFocusTraversalPolicy)policy).
unsetNextFocusableComponent(this, nextFocusableComponent);
}
}
/**
* In release 1.4, the focus subsystem was rearchitected.
* For more information, see
* <a href="https://docs.oracle.com/javase/tutorial/uiswing/misc/focus.html">
* How to Use the Focus Subsystem</a>,
* a section in <em>The Java Tutorial</em>.
* <p>
* Overrides the default <code>FocusTraversalPolicy</code> for this
* <code>JComponent</code>'s focus traversal cycle by unconditionally
* setting the specified <code>Component</code> as the next
* <code>Component</code> in the cycle, and this <code>JComponent</code>
* as the specified <code>Component</code>'s previous
* <code>Component</code> in the cycle.
*
* @param aComponent the <code>Component</code> that should follow this
* <code>JComponent</code> in the focus traversal cycle
*
* @see #getNextFocusableComponent
* @see java.awt.FocusTraversalPolicy
* @deprecated As of 1.4, replaced by <code>FocusTraversalPolicy</code>
*/
@Deprecated
public void setNextFocusableComponent(Component aComponent) {
boolean displayable = isDisplayable();
if (displayable) {
deregisterNextFocusableComponent();
}
putClientProperty(NEXT_FOCUS, aComponent);
if (displayable) {
registerNextFocusableComponent(aComponent);
}
}
/**
* In release 1.4, the focus subsystem was rearchitected.
* For more information, see
* <a href="https://docs.oracle.com/javase/tutorial/uiswing/misc/focus.html">
* How to Use the Focus Subsystem</a>,
* a section in <em>The Java Tutorial</em>.
* <p>
* Returns the <code>Component</code> set by a prior call to
* <code>setNextFocusableComponent(Component)</code> on this
* <code>JComponent</code>.
*
* @return the <code>Component</code> that will follow this
* <code>JComponent</code> in the focus traversal cycle, or
* <code>null</code> if none has been explicitly specified
*
* @see #setNextFocusableComponent
* @deprecated As of 1.4, replaced by <code>FocusTraversalPolicy</code>.
*/
@Deprecated
public Component getNextFocusableComponent() {
return (Component)getClientProperty(NEXT_FOCUS);
}
/**
* Provides a hint as to whether or not this <code>JComponent</code>
* 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 <code>JComponent</code> to steal focus,
* but did want the <code>JComponent</code> to be traversable via the
* keyboard. If you do not want this <code>JComponent</code> focusable at
* all, use the <code>setFocusable</code> method instead.
* <p>
* Please see
* <a href="https://docs.oracle.com/javase/tutorial/uiswing/misc/focus.html">
* How to Use the Focus Subsystem</a>,
* a section in <em>The Java Tutorial</em>,
* for more information.
*
* @param requestFocusEnabled indicates whether you want this
* <code>JComponent</code> to be focusable or not
* @see <a href="../../java/awt/doc-files/FocusSpec.html">Focus Specification</a>
* @see java.awt.Component#setFocusable
*/
public void setRequestFocusEnabled(boolean requestFocusEnabled) {
setFlag(REQUEST_FOCUS_DISABLED, !requestFocusEnabled);
}
/**
* Returns <code>true</code> if this <code>JComponent</code> should
* get focus; otherwise returns <code>false</code>.
* <p>
* Please see
* <a href="https://docs.oracle.com/javase/tutorial/uiswing/misc/focus.html">
* How to Use the Focus Subsystem</a>,
* a section in <em>The Java Tutorial</em>,
* for more information.
*
* @return <code>true</code> if this component should get focus,
* otherwise returns <code>false</code>
* @see #setRequestFocusEnabled
* @see <a href="../../java/awt/doc-files/FocusSpec.html">Focus
* Specification</a>
* @see java.awt.Component#isFocusable
*/
public boolean isRequestFocusEnabled() {
return !getFlag(REQUEST_FOCUS_DISABLED);
}
/**
* Requests that this <code>Component</code> gets the input focus.
* Refer to {@link java.awt.Component#requestFocus()
* Component.requestFocus()} for a complete description of
* this method.
* <p>
* Note that the use of this method is discouraged because
* its behavior is platform dependent. Instead we recommend the
* use of {@link #requestFocusInWindow() requestFocusInWindow()}.
* If you would like more information on focus, see
* <a href="https://docs.oracle.com/javase/tutorial/uiswing/misc/focus.html">
* How to Use the Focus Subsystem</a>,
* a section in <em>The Java Tutorial</em>.
*
* @see java.awt.Component#requestFocusInWindow()
* @see java.awt.Component#requestFocusInWindow(boolean)
* @since 1.4
*/
public void requestFocus() {
super.requestFocus();
}
/**
* Requests that this <code>Component</code> gets the input focus.
* Refer to {@link java.awt.Component#requestFocus(boolean)
* Component.requestFocus(boolean)} for a complete description of
* this method.
* <p>
* Note that the use of this method is discouraged because
* its behavior is platform dependent. Instead we recommend the
* use of {@link #requestFocusInWindow(boolean)
* requestFocusInWindow(boolean)}.
* If you would like more information on focus, see
* <a href="https://docs.oracle.com/javase/tutorial/uiswing/misc/focus.html">
* How to Use the Focus Subsystem</a>,
* a section in <em>The Java Tutorial</em>.
*
* @param temporary boolean indicating if the focus change is temporary
* @return <code>false</code> if the focus change request is guaranteed to
* fail; <code>true</code> if it is likely to succeed
* @see java.awt.Component#requestFocusInWindow()
* @see java.awt.Component#requestFocusInWindow(boolean)
* @since 1.4
*/
public boolean requestFocus(boolean temporary) {
return super.requestFocus(temporary);
}
/**
* Requests that this <code>Component</code> gets the input focus.
* Refer to {@link java.awt.Component#requestFocusInWindow()
* Component.requestFocusInWindow()} for a complete description of
* this method.
* <p>
* If you would like more information on focus, see
* <a href="https://docs.oracle.com/javase/tutorial/uiswing/misc/focus.html">
* How to Use the Focus Subsystem</a>,
* a section in <em>The Java Tutorial</em>.
*
* @return <code>false</code> if the focus change request is guaranteed to
* fail; <code>true</code> if it is likely to succeed
* @see java.awt.Component#requestFocusInWindow()
* @see java.awt.Component#requestFocusInWindow(boolean)
* @since 1.4
*/
public boolean requestFocusInWindow() {
return super.requestFocusInWindow();
}
/**
* Requests that this <code>Component</code> gets the input focus.
* Refer to {@link java.awt.Component#requestFocusInWindow(boolean)
* Component.requestFocusInWindow(boolean)} for a complete description of
* this method.
* <p>
* If you would like more information on focus, see
* <a href="https://docs.oracle.com/javase/tutorial/uiswing/misc/focus.html">
* How to Use the Focus Subsystem</a>,
* a section in <em>The Java Tutorial</em>.
*
* @param temporary boolean indicating if the focus change is temporary
* @return <code>false</code> if the focus change request is guaranteed to
* fail; <code>true</code> if it is likely to succeed
* @see java.awt.Component#requestFocusInWindow()
* @see java.awt.Component#requestFocusInWindow(boolean)
* @since 1.4
*/
protected boolean requestFocusInWindow(boolean temporary) {
return super.requestFocusInWindow(temporary);
}
/**
* 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.
* <p>
* This method is intended for use by focus implementations. Client code
* should not use this method; instead, it should use
* <code>requestFocusInWindow()</code>.
*
* @see #requestFocusInWindow()
*/
public void grabFocus() {
requestFocus();
}
/**
* 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.
*
* @param verifyInputWhenFocusTarget value for the
* <code>verifyInputWhenFocusTarget</code> property
* @see InputVerifier
* @see #setInputVerifier
* @see #getInputVerifier
* @see #getVerifyInputWhenFocusTarget
*
* @since 1.3
*/
@BeanProperty(description
= "Whether the Component verifies input before accepting focus.")
public void setVerifyInputWhenFocusTarget(boolean
verifyInputWhenFocusTarget) {
boolean oldVerifyInputWhenFocusTarget =
this.verifyInputWhenFocusTarget;
this.verifyInputWhenFocusTarget = verifyInputWhenFocusTarget;
firePropertyChange("verifyInputWhenFocusTarget",
oldVerifyInputWhenFocusTarget,
verifyInputWhenFocusTarget);
}
/**
* Returns the value that indicates whether the input verifier for the
* current focus owner will be called before this component requests
* focus.
*
* @return value of the <code>verifyInputWhenFocusTarget</code> property
*
* @see InputVerifier
* @see #setInputVerifier
* @see #getInputVerifier
* @see #setVerifyInputWhenFocusTarget
*
* @since 1.3
*/
public boolean getVerifyInputWhenFocusTarget() {
return verifyInputWhenFocusTarget;
}
/**
* Gets the <code>FontMetrics</code> for the specified <code>Font</code>.
*
* @param font the font for which font metrics is to be
* obtained
* @return the font metrics for <code>font</code>
* @throws NullPointerException if <code>font</code> is null
* @since 1.5
*/
public FontMetrics getFontMetrics(Font font) {
return SwingUtilities2.getFontMetrics(this, font);
}
/**
* Sets the preferred size of this component.
* If <code>preferredSize</code> is <code>null</code>, the UI will
* be asked for the preferred size.
*/
@BeanProperty(preferred = true, description
= "The preferred size of the component.")
public void setPreferredSize(Dimension preferredSize) {
super.setPreferredSize(preferredSize);
}
/**
* If the <code>preferredSize</code> has been set to a
* non-<code>null</code> value just returns it.
* If the UI delegate's <code>getPreferredSize</code>
* method returns a non <code>null</code> value then return that;
* otherwise defer to the component's layout manager.
*
* @return the value of the <code>preferredSize</code> property
* @see #setPreferredSize
* @see ComponentUI
*/
@Transient
public Dimension getPreferredSize() {
if (isPreferredSizeSet()) {
return super.getPreferredSize();
}
Dimension size = null;
if (ui != null) {
size = ui.getPreferredSize(this);
}
return (size != null) ? size : super.getPreferredSize();
}
/**
* Sets the maximum size of this component to a constant
* value. Subsequent calls to <code>getMaximumSize</code> will always
* return this value; the component's UI will not be asked
* to compute it. Setting the maximum size to <code>null</code>
* restores the default behavior.
*
* @param maximumSize a <code>Dimension</code> containing the
* desired maximum allowable size
* @see #getMaximumSize
*/
@BeanProperty(description
= "The maximum size of the component.")
public void setMaximumSize(Dimension maximumSize) {
super.setMaximumSize(maximumSize);
}
/**
* If the maximum size has been set to a non-<code>null</code> value
* just returns it. If the UI delegate's <code>getMaximumSize</code>
* method returns a non-<code>null</code> value then return that;
* otherwise defer to the component's layout manager.
*
* @return the value of the <code>maximumSize</code> property
* @see #setMaximumSize
* @see ComponentUI
*/
@Transient
public Dimension getMaximumSize() {
if (isMaximumSizeSet()) {
return super.getMaximumSize();
}
Dimension size = null;
if (ui != null) {
size = ui.getMaximumSize(this);
}
return (size != null) ? size : super.getMaximumSize();
}
/**
* Sets the minimum size of this component to a constant
* value. Subsequent calls to <code>getMinimumSize</code> will always
* return this value; the component's UI will not be asked
* to compute it. Setting the minimum size to <code>null</code>
* restores the default behavior.
*
* @param minimumSize the new minimum size of this component
* @see #getMinimumSize
*/
@BeanProperty(description
= "The minimum size of the component.")
public void setMinimumSize(Dimension minimumSize) {
super.setMinimumSize(minimumSize);
}
/**
* If the minimum size has been set to a non-<code>null</code> value
* just returns it. If the UI delegate's <code>getMinimumSize</code>
* method returns a non-<code>null</code> value then return that; otherwise
* defer to the component's layout manager.
*
* @return the value of the <code>minimumSize</code> property
* @see #setMinimumSize
* @see ComponentUI
*/
@Transient
public Dimension getMinimumSize() {
if (isMinimumSizeSet()) {
return super.getMinimumSize();
}
Dimension size = null;
if (ui != null) {
size = ui.getMinimumSize(this);
}
return (size != null) ? size : super.getMinimumSize();
}
/**
* Gives the UI delegate an opportunity to define the precise
* shape of this component for the sake of mouse processing.
*
* @return true if this component logically contains x,y
* @see java.awt.Component#contains(int, int)
* @see ComponentUI
*/
public boolean contains(int x, int y) {
return (ui != null) ? ui.contains(this, x, y) : super.contains(x, y);
}
/**
* Sets the border of this component. The <code>Border</code> 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.
* <p>
* Although technically you can set the border on any object
* that inherits from <code>JComponent</code>, 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 <code>JPanel</code> or <code>JLabel</code>,
* we recommend that you put the component in a <code>JPanel</code>
* and set the border on the <code>JPanel</code>.
* <p>
* This is a bound property.
*
* @param border the border to be rendered for this component
* @see Border
* @see CompoundBorder
*/
@BeanProperty(preferred = true, visualUpdate = true, description
= "The component's border.")
public void setBorder(Border border) {
Border oldBorder = this.border;
this.border = border;
firePropertyChange("border", oldBorder, border);
if (border != oldBorder) {
if (border == null || oldBorder == null ||
!(border.getBorderInsets(this).equals(oldBorder.getBorderInsets(this)))) {
revalidate();
}
repaint();
}
}
/**
* Returns the border of this component or <code>null</code> if no
* border is currently set.
*
* @return the border object for this component
* @see #setBorder
*/
public Border getBorder() {
return border;
}
/**
* If a border has been set on this component, returns the
* border's insets; otherwise calls <code>super.getInsets</code>.
*
* @return the value of the insets property
* @see #setBorder
*/
@BeanProperty(expert = true)
public Insets getInsets() {
if (border != null) {
return border.getBorderInsets(this);
}
return super.getInsets();
}
/**
* Returns an <code>Insets</code> object containing this component's inset
* values. The passed-in <code>Insets</code> 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 <code>insets</code> is null, this will allocate a new one.
*
* @param insets the <code>Insets</code> object, which can be reused
* @return the <code>Insets</code> object
* @see #getInsets
*/
public Insets getInsets(Insets insets) {
if (insets == null) {
insets = new Insets(0, 0, 0, 0);
}
if (border != null) {
if (border instanceof AbstractBorder) {
return ((AbstractBorder)border).getBorderInsets(this, insets);
} else {
// Can't reuse border insets because the Border interface
// can't be enhanced.
return border.getBorderInsets(this);
}
} else {
// super.getInsets() always returns an Insets object with
// all of its value zeroed. No need for a new object here.
insets.left = insets.top = insets.right = insets.bottom = 0;
return insets;
}
}
/**
* Overrides <code>Container.getAlignmentY</code> to return
* the vertical alignment.
*
* @return the value of the <code>alignmentY</code> property
* @see #setAlignmentY
* @see java.awt.Component#getAlignmentY
*/
public float getAlignmentY() {
if (isAlignmentYSet) {
return alignmentY;
}
return super.getAlignmentY();
}
/**
* Sets the vertical alignment.
*
* @param alignmentY the new vertical alignment
* @see #getAlignmentY
*/
@BeanProperty(description
= "The preferred vertical alignment of the component.")
public void setAlignmentY(float alignmentY) {
this.alignmentY = validateAlignment(alignmentY);
isAlignmentYSet = true;
}
/**
* Overrides <code>Container.getAlignmentX</code> to return
* the horizontal alignment.
*
* @return the value of the <code>alignmentX</code> property
* @see #setAlignmentX
* @see java.awt.Component#getAlignmentX
*/
public float getAlignmentX() {
if (isAlignmentXSet) {
return alignmentX;
}
return super.getAlignmentX();
}
/**
* Sets the horizontal alignment.
*
* @param alignmentX the new horizontal alignment
* @see #getAlignmentX
*/
@BeanProperty(description
= "The preferred horizontal alignment of the component.")
public void setAlignmentX(float alignmentX) {
this.alignmentX = validateAlignment(alignmentX);
isAlignmentXSet = true;
}
private float validateAlignment(float alignment) {
return alignment > 1.0f ? 1.0f : alignment < 0.0f ? 0.0f : alignment;
}
/**
* Sets the input verifier for this component.
*
* @param inputVerifier the new input verifier
* @since 1.3
* @see InputVerifier
*/
@BeanProperty(description
= "The component's input verifier.")
public void setInputVerifier(InputVerifier inputVerifier) {
InputVerifier oldInputVerifier = (InputVerifier)getClientProperty(
JComponent_INPUT_VERIFIER);
putClientProperty(JComponent_INPUT_VERIFIER, inputVerifier);
firePropertyChange("inputVerifier", oldInputVerifier, inputVerifier);
}
/**
* Returns the input verifier for this component.
*
* @return the <code>inputVerifier</code> property
* @since 1.3
* @see InputVerifier
*/
public InputVerifier getInputVerifier() {
return (InputVerifier)getClientProperty(JComponent_INPUT_VERIFIER);
}
/**
* Returns this component's graphics context, which lets you draw
* on a component. Use this method to get a <code>Graphics</code> object and
* then invoke operations on that object to draw on the component.
* @return this components graphics context
*/
@BeanProperty(bound = false)
public Graphics getGraphics() {
if (DEBUG_GRAPHICS_LOADED && shouldDebugGraphics() != 0) {
DebugGraphics graphics = new DebugGraphics(super.getGraphics(),
this);
return graphics;
}
return super.getGraphics();
}
/** Enables or disables diagnostic information about every graphics
* operation performed within the component or one of its children.
*
* @param debugOptions determines how the component should display
* the information; one of the following options:
* <ul>
* <li>DebugGraphics.LOG_OPTION - causes a text message to be printed.
* <li>DebugGraphics.FLASH_OPTION - causes the drawing to flash several
* times.
* <li>DebugGraphics.BUFFERED_OPTION - creates an
* <code>ExternalWindow</code> that displays the operations
* performed on the View's offscreen buffer.
* <li>DebugGraphics.NONE_OPTION disables debugging.
* <li>A value of 0 causes no changes to the debugging options.
* </ul>
* <code>debugOptions</code> is bitwise OR'd into the current value
*/
@BeanProperty(bound = false, preferred = true, enumerationValues = {
"DebugGraphics.NONE_OPTION",
"DebugGraphics.LOG_OPTION",
"DebugGraphics.FLASH_OPTION",
"DebugGraphics.BUFFERED_OPTION"}, description
= "Diagnostic options for graphics operations.")
public void setDebugGraphicsOptions(int debugOptions) {
DebugGraphics.setDebugOptions(this, debugOptions);
}
/** Returns the state of graphics debugging.
*
* @return a bitwise OR'd flag of zero or more of the following options:
* <ul>
* <li>DebugGraphics.LOG_OPTION - causes a text message to be printed.
* <li>DebugGraphics.FLASH_OPTION - causes the drawing to flash several
* times.
* <li>DebugGraphics.BUFFERED_OPTION - creates an
* <code>ExternalWindow</code> that displays the operations
* performed on the View's offscreen buffer.
* <li>DebugGraphics.NONE_OPTION disables debugging.
* <li>A value of 0 causes no changes to the debugging options.
* </ul>
* @see #setDebugGraphicsOptions
*/
public int getDebugGraphicsOptions() {
return DebugGraphics.getDebugOptions(this);
}
/**
* Returns true if debug information is enabled for this
* <code>JComponent</code> or one of its parents.
*/
int shouldDebugGraphics() {
return DebugGraphics.shouldComponentDebug(this);
}
/**
* This method is now obsolete, please use a combination of
* <code>getActionMap()</code> and <code>getInputMap()</code> for
* similar behavior. For example, to bind the <code>KeyStroke</code>
* <code>aKeyStroke</code> to the <code>Action</code> <code>anAction</code>
* now use:
* <pre>
* component.getInputMap().put(aKeyStroke, aCommand);
* component.getActionMap().put(aCommmand, anAction);
* </pre>
* The above assumes you want the binding to be applicable for
* <code>WHEN_FOCUSED</code>. To register bindings for other focus
* states use the <code>getInputMap</code> method that takes an integer.
* <p>
* Register a new keyboard action.
* <code>anAction</code> will be invoked if a key event matching
* <code>aKeyStroke</code> occurs and <code>aCondition</code> is verified.
* The <code>KeyStroke</code> object defines a
* particular combination of a keyboard key and one or more modifiers
* (alt, shift, ctrl, meta).
* <p>
* The <code>aCommand</code> will be set in the delivered event if
* specified.
* <p>
* The <code>aCondition</code> can be one of:
* <blockquote>
* <DL>
* <DT>WHEN_FOCUSED
* <DD>The action will be invoked only when the keystroke occurs
* while the component has the focus.
* <DT>WHEN_IN_FOCUSED_WINDOW
* <DD>The action will be invoked when the keystroke occurs while
* the component has the focus or if the component is in the
* window that has the focus. Note that the component need not
* be an immediate descendent of the window -- it can be
* anywhere in the window's containment hierarchy. In other
* words, whenever <em>any</em> component in the window has the focus,
* the action registered with this component is invoked.
* <DT>WHEN_ANCESTOR_OF_FOCUSED_COMPONENT
* <DD>The action will be invoked when the keystroke occurs while the
* component has the focus or if the component is an ancestor of
* the component that has the focus.
* </DL>
* </blockquote>
* <p>
* 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).
* <p>
* If an action has already been registered for the receiving
* container, with the same charCode and the same modifiers,
* <code>anAction</code> will replace the action.
*
* @param anAction the <code>Action</code> to be registered
* @param aCommand the command to be set in the delivered event
* @param aKeyStroke the <code>KeyStroke</code> to bind to the action
* @param aCondition the condition that needs to be met, see above
* @see KeyStroke
*/
public void registerKeyboardAction(ActionListener anAction,String aCommand,KeyStroke aKeyStroke,int aCondition) {
InputMap inputMap = getInputMap(aCondition, true);
if (inputMap != null) {
ActionMap actionMap = getActionMap(true);
ActionStandin action = new ActionStandin(anAction, aCommand);
inputMap.put(aKeyStroke, action);
if (actionMap != null) {
actionMap.put(action, action);
}
}
}
/**
* Registers any bound <code>WHEN_IN_FOCUSED_WINDOW</code> actions with
* the <code>KeyboardManager</code>. If <code>onlyIfNew</code>
* is true only actions that haven't been registered are pushed
* to the <code>KeyboardManager</code>;
* otherwise all actions are pushed to the <code>KeyboardManager</code>.
*
* @param onlyIfNew if true, only actions that haven't been registered
* are pushed to the <code>KeyboardManager</code>
*/
private void registerWithKeyboardManager(boolean onlyIfNew) {
InputMap inputMap = getInputMap(WHEN_IN_FOCUSED_WINDOW, false);
KeyStroke[] strokes;
@SuppressWarnings("unchecked")
Hashtable<KeyStroke, KeyStroke> registered =
(Hashtable<KeyStroke, KeyStroke>)getClientProperty
(WHEN_IN_FOCUSED_WINDOW_BINDINGS);
if (inputMap != null) {
// Push any new KeyStrokes to the KeyboardManager.
strokes = inputMap.allKeys();
if (strokes != null) {
for (int counter = strokes.length - 1; counter >= 0;
counter--) {
if (!onlyIfNew || registered == null ||
registered.get(strokes[counter]) == null) {
registerWithKeyboardManager(strokes[counter]);
}
if (registered != null) {
registered.remove(strokes[counter]);
}
}
}
}
else {
strokes = null;
}
// Remove any old ones.
if (registered != null && registered.size() > 0) {
Enumeration<KeyStroke> keys = registered.keys();
while (keys.hasMoreElements()) {
KeyStroke ks = keys.nextElement();
unregisterWithKeyboardManager(ks);
}
registered.clear();
}
// Updated the registered Hashtable.
if (strokes != null && strokes.length > 0) {
if (registered == null) {
registered = new Hashtable<KeyStroke, KeyStroke>(strokes.length);
putClientProperty(WHEN_IN_FOCUSED_WINDOW_BINDINGS, registered);
}
for (int counter = strokes.length - 1; counter >= 0; counter--) {
registered.put(strokes[counter], strokes[counter]);
}
}
else {
putClientProperty(WHEN_IN_FOCUSED_WINDOW_BINDINGS, null);
}
}
/**
* Unregisters all the previously registered
* <code>WHEN_IN_FOCUSED_WINDOW</code> <code>KeyStroke</code> bindings.
*/
private void unregisterWithKeyboardManager() {
@SuppressWarnings("unchecked")
Hashtable<KeyStroke, KeyStroke> registered =
(Hashtable<KeyStroke, KeyStroke>)getClientProperty
(WHEN_IN_FOCUSED_WINDOW_BINDINGS);
if (registered != null && registered.size() > 0) {
Enumeration<KeyStroke> keys = registered.keys();
while (keys.hasMoreElements()) {
KeyStroke ks = keys.nextElement();
unregisterWithKeyboardManager(ks);
}
}
putClientProperty(WHEN_IN_FOCUSED_WINDOW_BINDINGS, null);
}
/**
* Invoked from <code>ComponentInputMap</code> when its bindings change.
* If <code>inputMap</code> is the current <code>windowInputMap</code>
* (or a parent of the window <code>InputMap</code>)
* the <code>KeyboardManager</code> is notified of the new bindings.
*
* @param inputMap the map containing the new bindings
*/
void componentInputMapChanged(ComponentInputMap inputMap) {
InputMap km = getInputMap(WHEN_IN_FOCUSED_WINDOW, false);
while (km != inputMap && km != null) {
km = km.getParent();
}
if (km != null) {
registerWithKeyboardManager(false);
}
}
private void registerWithKeyboardManager(KeyStroke aKeyStroke) {
KeyboardManager.getCurrentManager().registerKeyStroke(aKeyStroke,this);
}
private void unregisterWithKeyboardManager(KeyStroke aKeyStroke) {
KeyboardManager.getCurrentManager().unregisterKeyStroke(aKeyStroke,
this);
}
/**
* This method is now obsolete, please use a combination of
* <code>getActionMap()</code> and <code>getInputMap()</code> for
* similar behavior.
*
* @param anAction action to be registered to given keystroke and condition
* @param aKeyStroke a {@code KeyStroke}
* @param aCondition the condition to be associated with given keystroke
* and action
* @see #getActionMap
* @see #getInputMap(int)
*/
public void registerKeyboardAction(ActionListener anAction,KeyStroke aKeyStroke,int aCondition) {
registerKeyboardAction(anAction,null,aKeyStroke,aCondition);
}
/**
* This method is now obsolete. To unregister an existing binding
* you can either remove the binding from the
* <code>ActionMap/InputMap</code>, or place a dummy binding the
* <code>InputMap</code>. Removing the binding from the
* <code>InputMap</code> allows bindings in parent <code>InputMap</code>s
* to be active, whereas putting a dummy binding in the
* <code>InputMap</code> effectively disables
* the binding from ever happening.
* <p>
* Unregisters a keyboard action.
* This will remove the binding from the <code>ActionMap</code>
* (if it exists) as well as the <code>InputMap</code>s.
*
* @param aKeyStroke the keystroke for which to unregister its
* keyboard action
*/
public void unregisterKeyboardAction(KeyStroke aKeyStroke) {
ActionMap am = getActionMap(false);
for (int counter = 0; counter < 3; counter++) {
InputMap km = getInputMap(counter, false);
if (km != null) {
Object actionID = km.get(aKeyStroke);
if (am != null && actionID != null) {
am.remove(actionID);
}
km.remove(aKeyStroke);
}
}
}
/**
* Returns the <code>KeyStrokes</code> that will initiate
* registered actions.
*
* @return an array of <code>KeyStroke</code> objects
* @see #registerKeyboardAction
*/
@BeanProperty(bound = false)
public KeyStroke[] getRegisteredKeyStrokes() {
int[] counts = new int[3];
KeyStroke[][] strokes = new KeyStroke[3][];
for (int counter = 0; counter < 3; counter++) {
InputMap km = getInputMap(counter, false);
strokes[counter] = (km != null) ? km.allKeys() : null;
counts[counter] = (strokes[counter] != null) ?
strokes[counter].length : 0;
}
KeyStroke[] retValue = new KeyStroke[counts[0] + counts[1] +
counts[2]];
for (int counter = 0, last = 0; counter < 3; counter++) {
if (counts[counter] > 0) {
System.arraycopy(strokes[counter], 0, retValue, last,
counts[counter]);
last += counts[counter];
}
}
return retValue;
}
/**
* Returns the condition that determines whether a registered action
* occurs in response to the specified keystroke.
* <p>
* For Java 2 platform v1.3, a <code>KeyStroke</code> can be associated
* with more than one condition.
* For example, 'a' could be bound for the two
* conditions <code>WHEN_FOCUSED</code> and
* <code>WHEN_IN_FOCUSED_WINDOW</code> condition.
*
* @param aKeyStroke the keystroke for which to request an
* action-keystroke condition
* @return the action-keystroke condition
*/
public int getConditionForKeyStroke(KeyStroke aKeyStroke) {
for (int counter = 0; counter < 3; counter++) {
InputMap inputMap = getInputMap(counter, false);
if (inputMap != null && inputMap.get(aKeyStroke) != null) {
return counter;
}
}
return UNDEFINED_CONDITION;
}
/**
* Returns the object that will perform the action registered for a
* given keystroke.
*
* @param aKeyStroke the keystroke for which to return a listener
* @return the <code>ActionListener</code>
* object invoked when the keystroke occurs
*/
public ActionListener getActionForKeyStroke(KeyStroke aKeyStroke) {
ActionMap am = getActionMap(false);
if (am == null) {
return null;
}
for (int counter = 0; counter < 3; counter++) {
InputMap inputMap = getInputMap(counter, false);
if (inputMap != null) {
Object actionBinding = inputMap.get(aKeyStroke);
if (actionBinding != null) {
Action action = am.get(actionBinding);
if (action instanceof ActionStandin) {
return ((ActionStandin)action).actionListener;
}
return action;
}
}
}
return null;
}
/**
* Unregisters all the bindings in the first tier <code>InputMaps</code>
* and <code>ActionMap</code>. This has the effect of removing any
* local bindings, and allowing the bindings defined in parent
* <code>InputMap/ActionMaps</code>
* (the UI is usually defined in the second tier) to persist.
*/
public void resetKeyboardActions() {
// Keys
for (int counter = 0; counter < 3; counter++) {
InputMap inputMap = getInputMap(counter, false);
if (inputMap != null) {
inputMap.clear();
}
}
// Actions
ActionMap am = getActionMap(false);
if (am != null) {
am.clear();
}
}
/**
* Sets the <code>InputMap</code> to use under the condition
* <code>condition</code> to
* <code>map</code>. A <code>null</code> value implies you
* do not want any bindings to be used, even from the UI. This will
* not reinstall the UI <code>InputMap</code> (if there was one).
* <code>condition</code> has one of the following values:
* <ul>
* <li><code>WHEN_IN_FOCUSED_WINDOW</code>
* <li><code>WHEN_FOCUSED</code>
* <li><code>WHEN_ANCESTOR_OF_FOCUSED_COMPONENT</code>
* </ul>
* If <code>condition</code> is <code>WHEN_IN_FOCUSED_WINDOW</code>
* and <code>map</code> is not a <code>ComponentInputMap</code>, an
* <code>IllegalArgumentException</code> will be thrown.
* Similarly, if <code>condition</code> is not one of the values
* listed, an <code>IllegalArgumentException</code> will be thrown.
*
* @param condition one of the values listed above
* @param map the <code>InputMap</code> to use for the given condition
* @exception IllegalArgumentException if <code>condition</code> is
* <code>WHEN_IN_FOCUSED_WINDOW</code> and <code>map</code>
* is not an instance of <code>ComponentInputMap</code>; or
* if <code>condition</code> is not one of the legal values
* specified above
* @since 1.3
*/
public final void setInputMap(int condition, InputMap map) {
switch (condition) {
case WHEN_IN_FOCUSED_WINDOW:
if (map != null && !(map instanceof ComponentInputMap)) {
throw new IllegalArgumentException("WHEN_IN_FOCUSED_WINDOW InputMaps must be of type ComponentInputMap");
}
windowInputMap = (ComponentInputMap)map;
setFlag(WIF_INPUTMAP_CREATED, true);
registerWithKeyboardManager(false);
break;
case WHEN_ANCESTOR_OF_FOCUSED_COMPONENT:
ancestorInputMap = map;
setFlag(ANCESTOR_INPUTMAP_CREATED, true);
break;
case WHEN_FOCUSED:
focusInputMap = map;
setFlag(FOCUS_INPUTMAP_CREATED, true);
break;
default:
throw new IllegalArgumentException("condition must be one of JComponent.WHEN_IN_FOCUSED_WINDOW, JComponent.WHEN_FOCUSED or JComponent.WHEN_ANCESTOR_OF_FOCUSED_COMPONENT");
}
}
/**
* Returns the <code>InputMap</code> that is used during
* <code>condition</code>.
*
* @param condition one of WHEN_IN_FOCUSED_WINDOW, WHEN_FOCUSED,
* WHEN_ANCESTOR_OF_FOCUSED_COMPONENT
* @return the <code>InputMap</code> for the specified
* <code>condition</code>
* @since 1.3
*/
public final InputMap getInputMap(int condition) {
return getInputMap(condition, true);
}
/**
* Returns the <code>InputMap</code> that is used when the
* component has focus.
* This is convenience method for <code>getInputMap(WHEN_FOCUSED)</code>.
*
* @return the <code>InputMap</code> used when the component has focus
* @since 1.3
*/
public final InputMap getInputMap() {
return getInputMap(WHEN_FOCUSED, true);
}
/**
* Sets the <code>ActionMap</code> to <code>am</code>. This does not set
* the parent of the <code>am</code> to be the <code>ActionMap</code>
* from the UI (if there was one), it is up to the caller to have done this.
*
* @param am the new <code>ActionMap</code>
* @since 1.3
*/
public final void setActionMap(ActionMap am) {
actionMap = am;
setFlag(ACTIONMAP_CREATED, true);
}
/**
* Returns the <code>ActionMap</code> used to determine what
* <code>Action</code> to fire for particular <code>KeyStroke</code>
* binding. The returned <code>ActionMap</code>, unless otherwise
* set, will have the <code>ActionMap</code> from the UI set as the parent.
*
* @return the <code>ActionMap</code> containing the key/action bindings
* @since 1.3
*/
public final ActionMap getActionMap() {
return getActionMap(true);
}
/**
* Returns the <code>InputMap</code> to use for condition
* <code>condition</code>. If the <code>InputMap</code> hasn't
* been created, and <code>create</code> is
* true, it will be created.
*
* @param condition one of the following values:
* <ul>
* <li>JComponent.FOCUS_INPUTMAP_CREATED
* <li>JComponent.WHEN_ANCESTOR_OF_FOCUSED_COMPONENT
* <li>JComponent.WHEN_IN_FOCUSED_WINDOW
* </ul>
* @param create if true, create the <code>InputMap</code> if it
* is not already created
* @return the <code>InputMap</code> for the given <code>condition</code>;
* if <code>create</code> is false and the <code>InputMap</code>
* hasn't been created, returns <code>null</code>
* @exception IllegalArgumentException if <code>condition</code>
* is not one of the legal values listed above
*/
final InputMap getInputMap(int condition, boolean create) {
switch (condition) {
case WHEN_FOCUSED:
if (getFlag(FOCUS_INPUTMAP_CREATED)) {
return focusInputMap;
}
// Hasn't been created yet.
if (create) {
InputMap km = new InputMap();
setInputMap(condition, km);
return km;
}
break;
case WHEN_ANCESTOR_OF_FOCUSED_COMPONENT:
if (getFlag(ANCESTOR_INPUTMAP_CREATED)) {
return ancestorInputMap;
}
// Hasn't been created yet.
if (create) {
InputMap km = new InputMap();
setInputMap(condition, km);
return km;
}
break;
case WHEN_IN_FOCUSED_WINDOW:
if (getFlag(WIF_INPUTMAP_CREATED)) {
return windowInputMap;
}
// Hasn't been created yet.
if (create) {
ComponentInputMap km = new ComponentInputMap(this);
setInputMap(condition, km);
return km;
}
break;
default:
throw new IllegalArgumentException("condition must be one of JComponent.WHEN_IN_FOCUSED_WINDOW, JComponent.WHEN_FOCUSED or JComponent.WHEN_ANCESTOR_OF_FOCUSED_COMPONENT");
}
return null;
}
/**
* Finds and returns the appropriate <code>ActionMap</code>.
*
* @param create if true, create the <code>ActionMap</code> if it
* is not already created
* @return the <code>ActionMap</code> for this component; if the
* <code>create</code> flag is false and there is no
* current <code>ActionMap</code>, returns <code>null</code>
*/
final ActionMap getActionMap(boolean create) {
if (getFlag(ACTIONMAP_CREATED)) {
return actionMap;
}
// Hasn't been created.
if (create) {
ActionMap am = new ActionMap();
setActionMap(am);
return am;
}
return null;
}
/**
* Returns the baseline. The baseline is measured from the top of
* the component. This method is primarily meant for
* <code>LayoutManager</code>s to align components along their
* baseline. A return value less than 0 indicates this component
* does not have a reasonable baseline and that
* <code>LayoutManager</code>s should not align this component on
* its baseline.
* <p>
* This method calls into the <code>ComponentUI</code> method of the
* same name. If this component does not have a <code>ComponentUI</code>
* -1 will be returned. If a value >= 0 is
* returned, then the component has a valid baseline for any
* size >= the minimum size and <code>getBaselineResizeBehavior</code>
* can be used to determine how the baseline changes with size.
*
* @throws IllegalArgumentException {@inheritDoc}
* @see #getBaselineResizeBehavior
* @see java.awt.FontMetrics
* @since 1.6
*/
public int getBaseline(int width, int height) {
// check size.
super.getBaseline(width, height);
if (ui != null) {
return ui.getBaseline(this, width, height);
}
return -1;
}
/**
* 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.
* <p>
* This method calls into the <code>ComponentUI</code> method of
* the same name. If this component does not have a
* <code>ComponentUI</code>
* <code>BaselineResizeBehavior.OTHER</code> will be
* returned. Subclasses should
* never return <code>null</code>; if the baseline can not be
* calculated return <code>BaselineResizeBehavior.OTHER</code>. Callers
* should first ask for the baseline using
* <code>getBaseline</code> and if a value >= 0 is returned use
* this method. It is acceptable for this method to return a
* value other than <code>BaselineResizeBehavior.OTHER</code> even if
* <code>getBaseline</code> returns a value less than 0.
*
* @see #getBaseline(int, int)
* @since 1.6
*/
@BeanProperty(bound = false)
public BaselineResizeBehavior getBaselineResizeBehavior() {
if (ui != null) {
return ui.getBaselineResizeBehavior(this);
}
return BaselineResizeBehavior.OTHER;
}
/**
* In release 1.4, the focus subsystem was rearchitected.
* For more information, see
* <a href="https://docs.oracle.com/javase/tutorial/uiswing/misc/focus.html">
* How to Use the Focus Subsystem</a>,
* a section in <em>The Java Tutorial</em>.
* <p>
* Requests focus on this <code>JComponent</code>'s
* <code>FocusTraversalPolicy</code>'s default <code>Component</code>.
* If this <code>JComponent</code> is a focus cycle root, then its
* <code>FocusTraversalPolicy</code> is used. Otherwise, the
* <code>FocusTraversalPolicy</code> of this <code>JComponent</code>'s
* focus-cycle-root ancestor is used.
*
* @return true if this component can request to get the input focus,
* false if it can not
* @see java.awt.FocusTraversalPolicy#getDefaultComponent
* @deprecated As of 1.4, replaced by
* <code>FocusTraversalPolicy.getDefaultComponent(Container).requestFocus()</code>
*/
@Deprecated
public boolean requestDefaultFocus() {
Container nearestRoot =
(isFocusCycleRoot()) ? this : getFocusCycleRootAncestor();
if (nearestRoot == null) {
return false;
}
Component comp = nearestRoot.getFocusTraversalPolicy().
getDefaultComponent(nearestRoot);
if (comp != null) {
comp.requestFocus();
return true;
} else {
return false;
}
}
/**
* Makes the component visible or invisible.
* Overrides <code>Component.setVisible</code>.
*
* @param aFlag true to make the component visible; false to
* make it invisible
*/
@BeanProperty(hidden = true, visualUpdate = true)
public void setVisible(boolean aFlag) {
if (aFlag != isVisible()) {
super.setVisible(aFlag);
if (aFlag) {
Container parent = getParent();
if (parent != null) {
Rectangle r = getBounds();
parent.repaint(r.x, r.y, r.width, r.height);
}
revalidate();
}
}
}
/**
* 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.
* <p>Note: Disabling a component does not disable its children.
*
* <p>Note: Disabling a lightweight component does not prevent it from
* receiving MouseEvents.
*
* @param enabled true if this component should be enabled, false otherwise
* @see java.awt.Component#isEnabled
* @see java.awt.Component#isLightweight
*/
@BeanProperty(expert = true, preferred = true, visualUpdate = true, description
= "The enabled state of the component.")
public void setEnabled(boolean enabled) {
boolean oldEnabled = isEnabled();
super.setEnabled(enabled);
firePropertyChange("enabled", oldEnabled, enabled);
if (enabled != oldEnabled) {
repaint();
}
}
/**
* 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.
*
* @param fg the desired foreground <code>Color</code>
* @see java.awt.Component#getForeground
*/
@BeanProperty(preferred = true, visualUpdate = true, description
= "The foreground color of the component.")
public void setForeground(Color fg) {
Color oldFg = getForeground();
super.setForeground(fg);
if ((oldFg != null) ? !oldFg.equals(fg) : ((fg != null) && !fg.equals(oldFg))) {
// foreground already bound in AWT1.2
repaint();
}
}
/**
* Sets the background color of this component. The background
* color is used only if the component is opaque, and only
* by subclasses of <code>JComponent</code> or
* <code>ComponentUI</code> implementations. Direct subclasses of
* <code>JComponent</code> must override
* <code>paintComponent</code> to honor this property.
* <p>
* It is up to the look and feel to honor this property, some may
* choose to ignore it.
*
* @param bg the desired background <code>Color</code>
* @see java.awt.Component#getBackground
* @see #setOpaque
*/
@BeanProperty(preferred = true, visualUpdate = true, description
= "The background color of the component.")
public void setBackground(Color bg) {
Color oldBg = getBackground();
super.setBackground(bg);
if ((oldBg != null) ? !oldBg.equals(bg) : ((bg != null) && !bg.equals(oldBg))) {
// background already bound in AWT1.2
repaint();
}
}
/**
* Sets the font for this component.
*
* @param font the desired <code>Font</code> for this component
* @see java.awt.Component#getFont
*/
@BeanProperty(preferred = true, visualUpdate = true, description
= "The font for the component.")
public void setFont(Font font) {
Font oldFont = getFont();
super.setFont(font);
// font already bound in AWT1.2
if (font != oldFont) {
revalidate();
repaint();
}
}
/**
* 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).
*
* @return the default <code>Locale</code>.
* @see #setDefaultLocale
* @see java.awt.Component#getLocale
* @see #setLocale
* @since 1.4
*/
public static Locale getDefaultLocale() {
Locale l = (Locale) SwingUtilities.appContextGet(defaultLocale);
if( l == null ) {
//REMIND(bcb) choosing the default value is more complicated
//than this.
l = Locale.getDefault();
JComponent.setDefaultLocale( l );
}
return 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).
*
* @param l the desired default <code>Locale</code> for new components.
* @see #getDefaultLocale
* @see java.awt.Component#getLocale
* @see #setLocale
* @since 1.4
*/
public static void setDefaultLocale( Locale l ) {
SwingUtilities.appContextPut(defaultLocale, l);
}
/**
* 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.
* <p>
* 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.
*
* @param e the event to be processed
*/
protected void processComponentKeyEvent(KeyEvent e) {
}
/** Overrides <code>processKeyEvent</code> to process events. **/
protected void processKeyEvent(KeyEvent e) {
boolean result;
boolean shouldProcessKey;
// This gives the key event listeners a crack at the event
super.processKeyEvent(e);
// give the component itself a crack at the event
if (! e.isConsumed()) {
processComponentKeyEvent(e);
}
shouldProcessKey = KeyboardState.shouldProcess(e);
if(e.isConsumed()) {
return;
}
if (shouldProcessKey && processKeyBindings(e, e.getID() ==
KeyEvent.KEY_PRESSED)) {
e.consume();
}
}
/**
* Invoked to process the key bindings for <code>ks</code> as the result
* of the <code>KeyEvent</code> <code>e</code>. This obtains
* the appropriate <code>InputMap</code>,
* gets the binding, gets the action from the <code>ActionMap</code>,
* and then (if the action is found and the component
* is enabled) invokes <code>notifyAction</code> to notify the action.
*
* @param ks the <code>KeyStroke</code> queried
* @param e the <code>KeyEvent</code>
* @param condition one of the following values:
* <ul>
* <li>JComponent.WHEN_FOCUSED
* <li>JComponent.WHEN_ANCESTOR_OF_FOCUSED_COMPONENT
* <li>JComponent.WHEN_IN_FOCUSED_WINDOW
* </ul>
* @param pressed true if the key is pressed
* @return true if there was a binding to an action, and the action
* was enabled
*
* @since 1.3
*/
@SuppressWarnings("deprecation")
protected boolean processKeyBinding(KeyStroke ks, KeyEvent e,
int condition, boolean pressed) {
InputMap map = getInputMap(condition, false);
ActionMap am = getActionMap(false);
if(map != null && am != null && isEnabled()) {
Object binding = map.get(ks);
Action action = (binding == null) ? null : am.get(binding);
if (action != null) {
return SwingUtilities.notifyAction(action, ks, e, this,
e.getModifiers());
}
}
return false;
}
/**
* This is invoked as the result of a <code>KeyEvent</code>
* that was not consumed by the <code>FocusManager</code>,
* <code>KeyListeners</code>, or the component. It will first try
* <code>WHEN_FOCUSED</code> bindings,
* then <code>WHEN_ANCESTOR_OF_FOCUSED_COMPONENT</code> bindings,
* and finally <code>WHEN_IN_FOCUSED_WINDOW</code> bindings.
*
* @param e the unconsumed <code>KeyEvent</code>
* @param pressed true if the key is pressed
* @return true if there is a key binding for <code>e</code>
*/
@SuppressWarnings("deprecation")
boolean processKeyBindings(KeyEvent e, boolean pressed) {
if (!SwingUtilities.isValidKeyEventForKeyBindings(e)) {
return false;
}
// Get the KeyStroke
// There may be two keystrokes associated with a low-level key event;
// in this case a keystroke made of an extended key code has a priority.
KeyStroke ks;
KeyStroke ksE = null;
if (e.getID() == KeyEvent.KEY_TYPED) {
ks = KeyStroke.getKeyStroke(e.getKeyChar());
}
else {
ks = KeyStroke.getKeyStroke(e.getKeyCode(),e.getModifiers(),
(pressed ? false:true));
if (e.getKeyCode() != e.getExtendedKeyCode()) {
ksE = KeyStroke.getKeyStroke(e.getExtendedKeyCode(),e.getModifiers(),
(pressed ? false:true));
}
}
// Do we have a key binding for e?
// If we have a binding by an extended code, use it.
// If not, check for regular code binding.
if(ksE != null && processKeyBinding(ksE, e, WHEN_FOCUSED, pressed)) {
return true;
}
if(processKeyBinding(ks, e, WHEN_FOCUSED, pressed))
return true;
/* We have no key binding. Let's try the path from our parent to the
* window excluded. We store the path components so we can avoid
* asking the same component twice.
*/
Container parent = this;
while (parent != null && !(parent instanceof Window) &&
!(parent instanceof Applet)) {
if(parent instanceof JComponent) {
if(ksE != null && ((JComponent)parent).processKeyBinding(ksE, e,
WHEN_ANCESTOR_OF_FOCUSED_COMPONENT, pressed))
return true;
if(((JComponent)parent).processKeyBinding(ks, e,
WHEN_ANCESTOR_OF_FOCUSED_COMPONENT, pressed))
return true;
}
// This is done so that the children of a JInternalFrame are
// given precedence for WHEN_IN_FOCUSED_WINDOW bindings before
// other components WHEN_IN_FOCUSED_WINDOW bindings. This also gives
// more precedence to the WHEN_IN_FOCUSED_WINDOW bindings of the
// JInternalFrame's children vs the
// WHEN_ANCESTOR_OF_FOCUSED_COMPONENT bindings of the parents.
// maybe generalize from JInternalFrame (like isFocusCycleRoot).
if ((parent instanceof JInternalFrame) &&
JComponent.processKeyBindingsForAllComponents(e,parent,pressed)){
return true;
}
parent = parent.getParent();
}
/* No components between the focused component and the window is
* actually interested by the key event. Let's try the other
* JComponent in this window.
*/
if(parent != null) {
return JComponent.processKeyBindingsForAllComponents(e,parent,pressed);
}
return false;
}
static boolean processKeyBindingsForAllComponents(KeyEvent e,
Container container, boolean pressed) {
while (true) {
if (KeyboardManager.getCurrentManager().fireKeyboardAction(
e, pressed, container)) {
return true;
}
if (container instanceof Popup.HeavyWeightWindow) {
container = ((Window)container).getOwner();
}
else {
return false;
}
}
}
/**
* Registers the text to display in a tool tip.
* The text displays when the cursor lingers over the component.
* <p>
* See <a href="https://docs.oracle.com/javase/tutorial/uiswing/components/tooltip.html">How to Use Tool Tips</a>
* in <em>The Java Tutorial</em>
* for further documentation.
*
* @param text the string to display; if the text is <code>null</code>,
* the tool tip is turned off for this component
* @see #TOOL_TIP_TEXT_KEY
*/
@BeanProperty(bound = false, preferred = true, description
= "The text to display in a tool tip.")
public void setToolTipText(String text) {
String oldText = getToolTipText();
putClientProperty(TOOL_TIP_TEXT_KEY, text);
ToolTipManager toolTipManager = ToolTipManager.sharedInstance();
if (text != null) {
if (oldText == null) {
toolTipManager.registerComponent(this);
}
} else {
toolTipManager.unregisterComponent(this);
}
}
/**
* Returns the tooltip string that has been set with
* <code>setToolTipText</code>.
*
* @return the text of the tool tip
* @see #TOOL_TIP_TEXT_KEY
*/
public String getToolTipText() {
return (String)getClientProperty(TOOL_TIP_TEXT_KEY);
}
/**
* Returns the string to be used as the tooltip for <i>event</i>.
* By default this returns any string set using
* <code>setToolTipText</code>. If a component provides
* more extensive API to support differing tooltips at different locations,
* this method should be overridden.
*
* @param event the {@code MouseEvent} that initiated the
* {@code ToolTip} display
* @return a string containing the tooltip
*/
public String getToolTipText(MouseEvent event) {
return getToolTipText();
}
/**
* Returns the tooltip location in this component's coordinate system.
* If <code>null</code> is returned, Swing will choose a location.
* The default implementation returns <code>null</code>.
*
* @param event the <code>MouseEvent</code> that caused the
* <code>ToolTipManager</code> to show the tooltip
* @return always returns <code>null</code>
*/
public Point getToolTipLocation(MouseEvent event) {
return null;
}
/**
* 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 {@code null}, the look and feel will choose a suitable location.
*
* @param event the {@code MouseEvent} that triggered the popup to be
* shown, or {@code null} if the popup is not being shown as the
* result of a mouse event
* @return location to display the {@code JPopupMenu}, or {@code null}
* @since 1.5
*/
public Point getPopupLocation(MouseEvent event) {
return null;
}
/**
* Returns the instance of <code>JToolTip</code> 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.
*
* @return the <code>JToolTip</code> used to display this toolTip
*/
public JToolTip createToolTip() {
JToolTip tip = new JToolTip();
tip.setComponent(this);
return tip;
}
/**
* Forwards the <code>scrollRectToVisible()</code> message to the
* <code>JComponent</code>'s parent. Components that can service
* the request, such as <code>JViewport</code>,
* override this method and perform the scrolling.
*
* @param aRect the visible <code>Rectangle</code>
* @see JViewport
*/
public void scrollRectToVisible(Rectangle aRect) {
Container parent;
int dx = getX(), dy = getY();
for (parent = getParent();
!(parent == null) &&
!(parent instanceof JComponent) &&
!(parent instanceof CellRendererPane);
parent = parent.getParent()) {
Rectangle bounds = parent.getBounds();
dx += bounds.x;
dy += bounds.y;
}
if (!(parent == null) && !(parent instanceof CellRendererPane)) {
aRect.x += dx;
aRect.y += dy;
((JComponent)parent).scrollRectToVisible(aRect);
aRect.x -= dx;
aRect.y -= dy;
}
}
/**
* Sets the <code>autoscrolls</code> property.
* If <code>true</code> 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 <code>mouseDragged</code>
* events by calling <code>scrollRectToVisible</code> 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 <code>JScrollPane</code>
* (<code>JTable</code>, <code>JList</code>, <code>JTree</code>,
* <code>JTextArea</code>, and <code>JEditorPane</code>)
* already handle mouse dragged events in this way. To enable
* autoscrolling in any other component, add a mouse motion
* listener that calls <code>scrollRectToVisible</code>.
* For example, given a <code>JPanel</code>, <code>myPanel</code>:
* <pre>
* 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);
* </pre>
* The default value of the <code>autoScrolls</code>
* property is <code>false</code>.
*
* @param 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
* false
* @see #getAutoscrolls
* @see JViewport
* @see JScrollPane
*/
@BeanProperty(bound = false, expert = true, description
= "Determines if this component automatically scrolls its contents when dragged.")
public void setAutoscrolls(boolean autoscrolls) {
setFlag(AUTOSCROLLS_SET, true);
if (this.autoscrolls != autoscrolls) {
this.autoscrolls = autoscrolls;
if (autoscrolls) {
enableEvents(AWTEvent.MOUSE_EVENT_MASK);
enableEvents(AWTEvent.MOUSE_MOTION_EVENT_MASK);
}
else {
Autoscroller.stop(this);
}
}
}
/**
* Gets the <code>autoscrolls</code> property.
*
* @return the value of the <code>autoscrolls</code> property
* @see JViewport
* @see #setAutoscrolls
*/
public boolean getAutoscrolls() {
return autoscrolls;
}
/**
* Sets the {@code 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 {@code null} if the component does not support
* data transfer operations.
* <p>
* If the new {@code TransferHandler} is not {@code null}, this method
* also installs a <b>new</b> {@code DropTarget} on the component to
* activate drop handling through the {@code 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 ({@code setDropTarget(null)}) or by de-activating it
* ({@code getDropTaget().setActive(false)}).
* <p>
* If the new {@code TransferHandler} is {@code null}, this method removes
* the drop target.
* <p>
* 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 {@code non-null} value. Second, if the
* system property {@code suppressSwingDropSupport} is {@code true}. The
* default value for the system property is {@code false}.
* <p>
* Please see
* <a href="https://docs.oracle.com/javase/tutorial/uiswing/dnd/index.html">
* How to Use Drag and Drop and Data Transfer</a>,
* a section in <em>The Java Tutorial</em>, for more information.
*
* @param newHandler the new {@code TransferHandler}
*
* @see TransferHandler
* @see #getTransferHandler
* @since 1.4
*/
@BeanProperty(hidden = true, description
= "Mechanism for transfer of data to and from the component")
public void setTransferHandler(TransferHandler newHandler) {
TransferHandler oldHandler = (TransferHandler)getClientProperty(
JComponent_TRANSFER_HANDLER);
putClientProperty(JComponent_TRANSFER_HANDLER, newHandler);
SwingUtilities.installSwingDropTargetAsNecessary(this, newHandler);
firePropertyChange("transferHandler", oldHandler, newHandler);
}
/**
* Gets the <code>transferHandler</code> property.
*
* @return the value of the <code>transferHandler</code> property
*
* @see TransferHandler
* @see #setTransferHandler
* @since 1.4
*/
public TransferHandler getTransferHandler() {
return (TransferHandler)getClientProperty(JComponent_TRANSFER_HANDLER);
}
/**
* Calculates a custom drop location for this type of component,
* representing where a drop at the given point should insert data.
* <code>null</code> is returned if this component doesn't calculate
* custom drop locations. In this case, <code>TransferHandler</code>
* will provide a default <code>DropLocation</code> containing just
* the point.
*
* @param p the point to calculate a drop location for
* @return the drop location, or <code>null</code>
*/
TransferHandler.DropLocation dropLocationForPoint(Point p) {
return null;
}
/**
* Called to set or clear the drop location during a DnD operation.
* In some cases, the component may need to use its internal selection
* temporarily to indicate the drop location. To help facilitate this,
* this method returns and accepts as a parameter a state object.
* This state object can be used to store, and later restore, the selection
* state. Whatever this method returns will be passed back to it in
* future calls, as the state parameter. If it wants the DnD system to
* continue storing the same state, it must pass it back every time.
* Here's how this is used:
* <p>
* Let's say that on the first call to this method the component decides
* to save some state (because it is about to use the selection to show
* a drop index). It can return a state object to the caller encapsulating
* any saved selection state. On a second call, let's say the drop location
* is being changed to something else. The component doesn't need to
* restore anything yet, so it simply passes back the same state object
* to have the DnD system continue storing it. Finally, let's say this
* method is messaged with <code>null</code>. This means DnD
* is finished with this component for now, meaning it should restore
* state. At this point, it can use the state parameter to restore
* said state, and of course return <code>null</code> since there's
* no longer anything to store.
*
* @param location the drop location (as calculated by
* <code>dropLocationForPoint</code>) or <code>null</code>
* if there's no longer a valid drop location
* @param state the state object saved earlier for this component,
* or <code>null</code>
* @param forDrop whether or not the method is being called because an
* actual drop occurred
* @return any saved state for this component, or <code>null</code> if none
*/
Object setDropLocation(TransferHandler.DropLocation location,
Object state,
boolean forDrop) {
return null;
}
/**
* Called to indicate to this component that DnD is done.
* Needed by <code>JTree</code>.
*/
void dndDone() {
}
/**
* Processes mouse events occurring on this component by
* dispatching them to any registered
* <code>MouseListener</code> objects, refer to
* {@link java.awt.Component#processMouseEvent(MouseEvent)}
* for a complete description of this method.
*
* @param e the mouse event
* @see java.awt.Component#processMouseEvent
* @since 1.5
*/
protected void processMouseEvent(MouseEvent e) {
if (autoscrolls && e.getID() == MouseEvent.MOUSE_RELEASED) {
Autoscroller.stop(this);
}
super.processMouseEvent(e);
}
/**
* Processes mouse motion events, such as MouseEvent.MOUSE_DRAGGED.
*
* @param e the <code>MouseEvent</code>
* @see MouseEvent
*/
protected void processMouseMotionEvent(MouseEvent e) {
boolean dispatch = true;
if (autoscrolls && e.getID() == MouseEvent.MOUSE_DRAGGED) {
// We don't want to do the drags when the mouse moves if we're
// autoscrolling. It makes it feel spastic.
dispatch = !Autoscroller.isRunning(this);
Autoscroller.processMouseDragged(e);
}
if (dispatch) {
super.processMouseMotionEvent(e);
}
}
// Inner classes can't get at this method from a super class
void superProcessMouseMotionEvent(MouseEvent e) {
super.processMouseMotionEvent(e);
}
/**
* This is invoked by the <code>RepaintManager</code> if
* <code>createImage</code> is called on the component.
*
* @param newValue true if the double buffer image was created from this component
*/
void setCreatedDoubleBuffer(boolean newValue) {
setFlag(CREATED_DOUBLE_BUFFER, newValue);
}
/**
* Returns true if the <code>RepaintManager</code>
* created the double buffer image from the component.
*
* @return true if this component had a double buffer image, false otherwise
*/
boolean getCreatedDoubleBuffer() {
return getFlag(CREATED_DOUBLE_BUFFER);
}
/**
* <code>ActionStandin</code> is used as a standin for
* <code>ActionListeners</code> that are
* added via <code>registerKeyboardAction</code>.
*/
final class ActionStandin implements Action {
private final ActionListener actionListener;
private final String command;
// This will be non-null if actionListener is an Action.
private final Action action;
ActionStandin(ActionListener actionListener, String command) {
this.actionListener = actionListener;
if (actionListener instanceof Action) {
this.action = (Action)actionListener;
}
else {
this.action = null;
}
this.command = command;
}
public Object getValue(String key) {
if (key != null) {
if (key.equals(Action.ACTION_COMMAND_KEY)) {
return command;
}
if (action != null) {
return action.getValue(key);
}
if (key.equals(NAME)) {
return "ActionStandin";
}
}
return null;
}
public boolean isEnabled() {
if (actionListener == null) {
// This keeps the old semantics where
// registerKeyboardAction(null) would essentialy remove
// the binding. We don't remove the binding from the
// InputMap as that would still allow parent InputMaps
// bindings to be accessed.
return false;
}
if (action == null) {
return true;
}
return action.isEnabled();
}
public void actionPerformed(ActionEvent ae) {
if (actionListener != null) {
actionListener.actionPerformed(ae);
}
}
// We don't allow any values to be added.
public void putValue(String key, Object value) {}
// Does nothing, our enabledness is determiend from our asociated
// action.
public void setEnabled(boolean b) { }
public void addPropertyChangeListener
(PropertyChangeListener listener) {}
public void removePropertyChangeListener
(PropertyChangeListener listener) {}
}
// This class is used by the KeyboardState class to provide a single
// instance that can be stored in the AppContext.
static final class IntVector {
int[] array = null;
int count = 0;
int capacity = 0;
int size() {
return count;
}
int elementAt(int index) {
return array[index];
}
void addElement(int value) {
if (count == capacity) {
capacity = (capacity + 2) * 2;
int[] newarray = new int[capacity];
if (count > 0) {
System.arraycopy(array, 0, newarray, 0, count);
}
array = newarray;
}
array[count++] = value;
}
void setElementAt(int value, int index) {
array[index] = value;
}
}
@SuppressWarnings("serial")
static class KeyboardState implements Serializable {
private static final Object keyCodesKey =
JComponent.KeyboardState.class;
// Get the array of key codes from the AppContext.
static IntVector getKeyCodeArray() {
IntVector iv =
(IntVector)SwingUtilities.appContextGet(keyCodesKey);
if (iv == null) {
iv = new IntVector();
SwingUtilities.appContextPut(keyCodesKey, iv);
}
return iv;
}
static void registerKeyPressed(int keyCode) {
IntVector kca = getKeyCodeArray();
int count = kca.size();
int i;
for(i=0;i<count;i++) {
if(kca.elementAt(i) == -1){
kca.setElementAt(keyCode, i);
return;
}
}
kca.addElement(keyCode);
}
static void registerKeyReleased(int keyCode) {
IntVector kca = getKeyCodeArray();
int count = kca.size();
int i;
for(i=0;i<count;i++) {
if(kca.elementAt(i) == keyCode) {
kca.setElementAt(-1, i);
return;
}
}
}
static boolean keyIsPressed(int keyCode) {
IntVector kca = getKeyCodeArray();
int count = kca.size();
int i;
for(i=0;i<count;i++) {
if(kca.elementAt(i) == keyCode) {
return true;
}
}
return false;
}
/**
* Updates internal state of the KeyboardState and returns true
* if the event should be processed further.
*/
static boolean shouldProcess(KeyEvent e) {
switch (e.getID()) {
case KeyEvent.KEY_PRESSED:
if (!keyIsPressed(e.getKeyCode())) {
registerKeyPressed(e.getKeyCode());
}
return true;
case KeyEvent.KEY_RELEASED:
// We are forced to process VK_PRINTSCREEN separately because
// the Windows doesn't generate the key pressed event for
// printscreen and it block the processing of key release
// event for printscreen.
if (keyIsPressed(e.getKeyCode()) || e.getKeyCode()==KeyEvent.VK_PRINTSCREEN) {
registerKeyReleased(e.getKeyCode());
return true;
}
return false;
case KeyEvent.KEY_TYPED:
return true;
default:
// Not a known KeyEvent type, bail.
return false;
}
}
}
static final sun.awt.RequestFocusController focusController =
new sun.awt.RequestFocusController() {
public boolean acceptRequestFocus(Component from, Component to,
boolean temporary, boolean focusedWindowChangeAllowed,
FocusEvent.Cause cause)
{
if ((to == null) || !(to instanceof JComponent)) {
return true;
}
if ((from == null) || !(from instanceof JComponent)) {
return true;
}
JComponent target = (JComponent) to;
if (!target.getVerifyInputWhenFocusTarget()) {
return true;
}
JComponent jFocusOwner = (JComponent)from;
InputVerifier iv = jFocusOwner.getInputVerifier();
if (iv == null) {
return true;
} else {
Object currentSource = SwingUtilities.appContextGet(
INPUT_VERIFIER_SOURCE_KEY);
if (currentSource == jFocusOwner) {
// We're currently calling into the InputVerifier
// for this component, so allow the focus change.
return true;
}
SwingUtilities.appContextPut(INPUT_VERIFIER_SOURCE_KEY,
jFocusOwner);
try {
return iv.shouldYieldFocus(jFocusOwner, target);
} finally {
if (currentSource != null) {
// We're already in the InputVerifier for
// currentSource. By resetting the currentSource
// we ensure that if the InputVerifier for
// currentSource does a requestFocus, we don't
// try and run the InputVerifier again.
SwingUtilities.appContextPut(
INPUT_VERIFIER_SOURCE_KEY, currentSource);
} else {
SwingUtilities.appContextRemove(
INPUT_VERIFIER_SOURCE_KEY);
}
}
}
}
};
/*
* --- Accessibility Support ---
*/
/**
* @deprecated As of JDK version 1.1,
* replaced by <code>java.awt.Component.setEnabled(boolean)</code>.
*/
@Deprecated
public void enable() {
if (isEnabled() != true) {
super.enable();
if (accessibleContext != null) {
accessibleContext.firePropertyChange(
AccessibleContext.ACCESSIBLE_STATE_PROPERTY,
null, AccessibleState.ENABLED);
}
}
}
/**
* @deprecated As of JDK version 1.1,
* replaced by <code>java.awt.Component.setEnabled(boolean)</code>.
*/
@Deprecated
public void disable() {
if (isEnabled() != false) {
super.disable();
if (accessibleContext != null) {
accessibleContext.firePropertyChange(
AccessibleContext.ACCESSIBLE_STATE_PROPERTY,
AccessibleState.ENABLED, null);
}
}
}
/**
* Inner class of JComponent used to provide default support for
* accessibility. This class is not meant to be used directly by
* application developers, but is instead meant only to be
* subclassed by component developers.
* <p>
* <strong>Warning:</strong>
* 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 <code>java.beans</code> package.
* Please see {@link java.beans.XMLEncoder}.
*/
@SuppressWarnings("serial") // Same-version serialization only
public abstract class AccessibleJComponent extends AccessibleAWTContainer
implements AccessibleExtendedComponent
{
/**
* Though the class is abstract, this should be called by
* all sub-classes.
*/
protected AccessibleJComponent() {
super();
}
/**
* Number of PropertyChangeListener objects registered. It's used
* to add/remove ContainerListener and FocusListener to track
* target JComponent's state
*/
private transient volatile int propertyListenersCount = 0;
/**
* This field duplicates the function of the accessibleAWTFocusHandler field
* in java.awt.Component.AccessibleAWTComponent, so it has been deprecated.
*/
@Deprecated
protected FocusListener accessibleFocusHandler = null;
/**
* Fire PropertyChange listener, if one is registered,
* when children added/removed.
*/
protected class AccessibleContainerHandler
implements ContainerListener {
public void componentAdded(ContainerEvent e) {
Component c = e.getChild();
if (c != null && c instanceof Accessible) {
AccessibleJComponent.this.firePropertyChange(
AccessibleContext.ACCESSIBLE_CHILD_PROPERTY,
null, c.getAccessibleContext());
}
}
public void componentRemoved(ContainerEvent e) {
Component c = e.getChild();
if (c != null && c instanceof Accessible) {
AccessibleJComponent.this.firePropertyChange(
AccessibleContext.ACCESSIBLE_CHILD_PROPERTY,
c.getAccessibleContext(), null);
}
}
}
/**
* Fire PropertyChange listener, if one is registered,
* when focus events happen
* @since 1.3
* @deprecated This class is no longer used or needed.
* {@code java.awt.Component.AccessibleAWTComponent} provides
* the same functionality and it is handled in {@code Component}.
*/
@Deprecated
protected class AccessibleFocusHandler implements FocusListener {
public void focusGained(FocusEvent event) {
if (accessibleContext != null) {
accessibleContext.firePropertyChange(
AccessibleContext.ACCESSIBLE_STATE_PROPERTY,
null, AccessibleState.FOCUSED);
}
}
public void focusLost(FocusEvent event) {
if (accessibleContext != null) {
accessibleContext.firePropertyChange(
AccessibleContext.ACCESSIBLE_STATE_PROPERTY,
AccessibleState.FOCUSED, null);
}
}
} // inner class AccessibleFocusHandler
/**
* Adds a PropertyChangeListener to the listener list.
*
* @param listener the PropertyChangeListener to be added
*/
public void addPropertyChangeListener(PropertyChangeListener listener) {
super.addPropertyChangeListener(listener);
}
/**
* Removes a PropertyChangeListener from the listener list.
* This removes a PropertyChangeListener that was registered
* for all properties.
*
* @param listener the PropertyChangeListener to be removed
*/
public void removePropertyChangeListener(PropertyChangeListener listener) {
super.removePropertyChangeListener(listener);
}
/**
* Recursively search through the border hierarchy (if it exists)
* for a TitledBorder with a non-null title. This does a depth
* first search on first the inside borders then the outside borders.
* The assumption is that titles make really pretty inside borders
* but not very pretty outside borders in compound border situations.
* It's rather arbitrary, but hopefully decent UI programmers will
* not create multiple titled borders for the same component.
*
* @param b the {@code Border} for which to retrieve its title
* @return the border's title as a {@code String}, null if it has
* no title
*/
protected String getBorderTitle(Border b) {
String s;
if (b instanceof TitledBorder) {
return ((TitledBorder) b).getTitle();
} else if (b instanceof CompoundBorder) {
s = getBorderTitle(((CompoundBorder) b).getInsideBorder());
if (s == null) {
s = getBorderTitle(((CompoundBorder) b).getOutsideBorder());
}
return s;
} else {
return null;
}
}
// AccessibleContext methods
//
/**
* Gets the accessible name of this object. This should almost never
* return java.awt.Component.getName(), as that generally isn't
* a localized name, and doesn't have meaning for the user. If the
* object is fundamentally a text object (such as a menu item), the
* accessible name should be the text of the object (for example,
* "save").
* If the object has a tooltip, the tooltip text may also be an
* appropriate String to return.
*
* @return the localized name of the object -- can be null if this
* object does not have a name
* @see AccessibleContext#setAccessibleName
*/
public String getAccessibleName() {
String name = accessibleName;
// fallback to the client name property
//
if (name == null) {
name = (String)getClientProperty(AccessibleContext.ACCESSIBLE_NAME_PROPERTY);
}
// fallback to the titled border if it exists
//
if (name == null) {
name = getBorderTitle(getBorder());
}
// fallback to the label labeling us if it exists
//
if (name == null) {
Object o = getClientProperty(JLabel.LABELED_BY_PROPERTY);
if (o instanceof Accessible) {
AccessibleContext ac = ((Accessible) o).getAccessibleContext();
if (ac != null) {
name = ac.getAccessibleName();
}
}
}
return name;
}
/**
* Gets the accessible description of this object. This should be
* a concise, localized description of what this object is - what
* is its meaning to the user. If the object has a tooltip, the
* tooltip text may be an appropriate string to return, assuming
* it contains a concise description of the object (instead of just
* the name of the object - for example a "Save" icon on a toolbar that
* had "save" as the tooltip text shouldn't return the tooltip
* text as the description, but something like "Saves the current
* text document" instead).
*
* @return the localized description of the object -- can be null if
* this object does not have a description
* @see AccessibleContext#setAccessibleDescription
*/
public String getAccessibleDescription() {
String description = accessibleDescription;
// fallback to the client description property
//
if (description == null) {
description = (String)getClientProperty(AccessibleContext.ACCESSIBLE_DESCRIPTION_PROPERTY);
}
// fallback to the tool tip text if it exists
//
if (description == null) {
try {
description = getToolTipText();
} catch (Exception e) {
// Just in case the subclass overrode the
// getToolTipText method and actually
// requires a MouseEvent.
// [[[FIXME: WDW - we probably should require this
// method to take a MouseEvent and just pass it on
// to getToolTipText. The swing-feedback traffic
// leads me to believe getToolTipText might change,
// though, so I was hesitant to make this change at
// this time.]]]
}
}
// fallback to the label labeling us if it exists
//
if (description == null) {
Object o = getClientProperty(JLabel.LABELED_BY_PROPERTY);
if (o instanceof Accessible) {
AccessibleContext ac = ((Accessible) o).getAccessibleContext();
if (ac != null) {
description = ac.getAccessibleDescription();
}
}
}
return description;
}
/**
* Gets the role of this object.
*
* @return an instance of AccessibleRole describing the role of the
* object
* @see AccessibleRole
*/
public AccessibleRole getAccessibleRole() {
return AccessibleRole.SWING_COMPONENT;
}
/**
* Gets the state of this object.
*
* @return an instance of AccessibleStateSet containing the current
* state set of the object
* @see AccessibleState
*/
public AccessibleStateSet getAccessibleStateSet() {
AccessibleStateSet states = super.getAccessibleStateSet();
if (JComponent.this.isOpaque()) {
states.add(AccessibleState.OPAQUE);
}
return states;
}
/**
* Returns the number of accessible children in the object. If all
* of the children of this object implement Accessible, than this
* method should return the number of children of this object.
*
* @return the number of accessible children in the object.
*/
public int getAccessibleChildrenCount() {
return super.getAccessibleChildrenCount();
}
/**
* Returns the nth Accessible child of the object.
*
* @param i zero-based index of child
* @return the nth Accessible child of the object
*/
public Accessible getAccessibleChild(int i) {
return super.getAccessibleChild(i);
}
// ----- AccessibleExtendedComponent
/**
* Returns the AccessibleExtendedComponent
*
* @return the AccessibleExtendedComponent
*/
AccessibleExtendedComponent getAccessibleExtendedComponent() {
return this;
}
/**
* Returns the tool tip text
*
* @return the tool tip text, if supported, of the object;
* otherwise, null
* @since 1.4
*/
public String getToolTipText() {
return JComponent.this.getToolTipText();
}
/**
* Returns the titled border text
*
* @return the titled border text, if supported, of the object;
* otherwise, null
* @since 1.4
*/
public String getTitledBorderText() {
Border border = JComponent.this.getBorder();
if (border instanceof TitledBorder) {
return ((TitledBorder)border).getTitle();
} else {
return null;
}
}
/**
* Returns key bindings associated with this object
*
* @return the key bindings, if supported, of the object;
* otherwise, null
* @see AccessibleKeyBinding
* @since 1.4
*/
public AccessibleKeyBinding getAccessibleKeyBinding(){
// Try to get the linked label's mnemonic if it exists
Object o = getClientProperty(JLabel.LABELED_BY_PROPERTY);
if (o instanceof Accessible){
AccessibleContext ac = ((Accessible) o).getAccessibleContext();
if (ac != null){
AccessibleComponent comp = ac.getAccessibleComponent();
if (! (comp instanceof AccessibleExtendedComponent))
return null;
return ((AccessibleExtendedComponent)comp).getAccessibleKeyBinding();
}
}
return null;
}
} // inner class AccessibleJComponent
/**
* Returns an <code>ArrayTable</code> used for
* key/value "client properties" for this component. If the
* <code>clientProperties</code> table doesn't exist, an empty one
* will be created.
*
* @return an ArrayTable
* @see #putClientProperty
* @see #getClientProperty
*/
private ArrayTable getClientProperties() {
if (clientProperties == null) {
clientProperties = new ArrayTable();
}
return clientProperties;
}
/**
* Returns the value of the property with the specified key. Only
* properties added with <code>putClientProperty</code> will return
* a non-<code>null</code> value.
*
* @param key the being queried
* @return the value of this property or <code>null</code>
* @see #putClientProperty
*/
public final Object getClientProperty(Object key) {
if (key == RenderingHints.KEY_TEXT_ANTIALIASING) {
return aaHint;
} else if (key == RenderingHints.KEY_TEXT_LCD_CONTRAST) {
return lcdRenderingHint;
}
if(clientProperties == null) {
return null;
} else {
synchronized(clientProperties) {
return clientProperties.get(key);
}
}
}
/**
* Adds an arbitrary key/value "client property" to this component.
* <p>
* The <code>get/putClientProperty</code> 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:
* <pre>
* componentA.putClientProperty("to the left of", componentB);
* </pre>
* If value is <code>null</code> this method will remove the property.
* Changes to client properties are reported with
* <code>PropertyChange</code> events.
* The name of the property (for the sake of PropertyChange
* events) is <code>key.toString()</code>.
* <p>
* The <code>clientProperty</code> 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.
*
* @param key the new client property key
* @param value the new client property value; if <code>null</code>
* this method will remove the property
* @see #getClientProperty
* @see #addPropertyChangeListener
*/
public final void putClientProperty(Object key, Object value) {
if (key == RenderingHints.KEY_TEXT_ANTIALIASING) {
aaHint = value;
return;
} else if (key == RenderingHints.KEY_TEXT_LCD_CONTRAST) {
lcdRenderingHint = value;
return;
}
if (value == null && clientProperties == null) {
// Both the value and ArrayTable are null, implying we don't
// have to do anything.
return;
}
ArrayTable clientProperties = getClientProperties();
Object oldValue;
synchronized(clientProperties) {
oldValue = clientProperties.get(key);
if (value != null) {
clientProperties.put(key, value);
} else if (oldValue != null) {
clientProperties.remove(key);
} else {
// old == new == null
return;
}
}
clientPropertyChanged(key, oldValue, value);
firePropertyChange(key.toString(), oldValue, value);
}
// Invoked from putClientProperty. This is provided for subclasses
// in Swing.
void clientPropertyChanged(Object key, Object oldValue,
Object newValue) {
}
/*
* Sets the property with the specified name to the specified value if
* the property has not already been set by the client program.
* This method is used primarily to set UI defaults for properties
* with primitive types, where the values cannot be marked with
* UIResource.
* @see LookAndFeel#installProperty
* @param propertyName String containing the name of the property
* @param value Object containing the property value
*/
void setUIProperty(String propertyName, Object value) {
if (propertyName == "opaque") {
if (!getFlag(OPAQUE_SET)) {
setOpaque(((Boolean)value).booleanValue());
setFlag(OPAQUE_SET, false);
}
} else if (propertyName == "autoscrolls") {
if (!getFlag(AUTOSCROLLS_SET)) {
setAutoscrolls(((Boolean)value).booleanValue());
setFlag(AUTOSCROLLS_SET, false);
}
} else if (propertyName == "focusTraversalKeysForward") {
@SuppressWarnings("unchecked")
Set<AWTKeyStroke> strokeSet = (Set<AWTKeyStroke>) value;
if (!getFlag(FOCUS_TRAVERSAL_KEYS_FORWARD_SET)) {
super.setFocusTraversalKeys(KeyboardFocusManager.
FORWARD_TRAVERSAL_KEYS,
strokeSet);
}
} else if (propertyName == "focusTraversalKeysBackward") {
@SuppressWarnings("unchecked")
Set<AWTKeyStroke> strokeSet = (Set<AWTKeyStroke>) value;
if (!getFlag(FOCUS_TRAVERSAL_KEYS_BACKWARD_SET)) {
super.setFocusTraversalKeys(KeyboardFocusManager.
BACKWARD_TRAVERSAL_KEYS,
strokeSet);
}
} else {
throw new IllegalArgumentException("property \""+
propertyName+ "\" cannot be set using this method");
}
}
/**
* Sets the focus traversal keys for a given traversal operation for this
* Component.
* Refer to
* {@link java.awt.Component#setFocusTraversalKeys}
* for a complete description of this method.
* <p>
* This method may throw a {@code ClassCastException} if any {@code Object}
* in {@code keystrokes} is not an {@code AWTKeyStroke}.
*
* @param id one of KeyboardFocusManager.FORWARD_TRAVERSAL_KEYS,
* KeyboardFocusManager.BACKWARD_TRAVERSAL_KEYS, or
* KeyboardFocusManager.UP_CYCLE_TRAVERSAL_KEYS
* @param keystrokes the Set of AWTKeyStroke for the specified operation
* @see java.awt.KeyboardFocusManager#FORWARD_TRAVERSAL_KEYS
* @see java.awt.KeyboardFocusManager#BACKWARD_TRAVERSAL_KEYS
* @see java.awt.KeyboardFocusManager#UP_CYCLE_TRAVERSAL_KEYS
* @throws IllegalArgumentException 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 Component
* @since 1.5
*/
public void
setFocusTraversalKeys(int id, Set<? extends AWTKeyStroke> keystrokes)
{
if (id == KeyboardFocusManager.FORWARD_TRAVERSAL_KEYS) {
setFlag(FOCUS_TRAVERSAL_KEYS_FORWARD_SET,true);
} else if (id == KeyboardFocusManager.BACKWARD_TRAVERSAL_KEYS) {
setFlag(FOCUS_TRAVERSAL_KEYS_BACKWARD_SET,true);
}
super.setFocusTraversalKeys(id,keystrokes);
}
/* --- Transitional java.awt.Component Support ---
* The methods and fields in this section will migrate to
* java.awt.Component in the next JDK release.
*/
/**
* Returns true if this component is lightweight, that is, if it doesn't
* have a native window system peer.
*
* @param c the {@code Component} to be checked
* @return true if this component is lightweight
*/
public static boolean isLightweightComponent(Component c) {
// TODO we cannot call c.isLightweight() because it is incorrectly
// overriden in DelegateContainer on osx.
return AWTAccessor.getComponentAccessor().isLightweight(c);
}
/**
* @deprecated As of JDK 5,
* replaced by <code>Component.setBounds(int, int, int, int)</code>.
* <p>
* Moves and resizes this component.
*
* @param x the new horizontal location
* @param y the new vertical location
* @param w the new width
* @param h the new height
* @see java.awt.Component#setBounds
*/
@Deprecated
public void reshape(int x, int y, int w, int h) {
super.reshape(x, y, w, h);
}
/**
* Stores the bounds of this component into "return value"
* <code>rv</code> and returns <code>rv</code>.
* If <code>rv</code> is <code>null</code> a new <code>Rectangle</code>
* is allocated. This version of <code>getBounds</code> is useful
* if the caller wants to avoid allocating a new <code>Rectangle</code>
* object on the heap.
*
* @param rv the return value, modified to the component's bounds
* @return <code>rv</code>; if <code>rv</code> is <code>null</code>
* return a newly created <code>Rectangle</code> with this
* component's bounds
*/
public Rectangle getBounds(Rectangle rv) {
if (rv == null) {
return new Rectangle(getX(), getY(), getWidth(), getHeight());
}
else {
rv.setBounds(getX(), getY(), getWidth(), getHeight());
return rv;
}
}
/**
* Stores the width/height of this component into "return value"
* <code>rv</code> and returns <code>rv</code>.
* If <code>rv</code> is <code>null</code> a new <code>Dimension</code>
* object is allocated. This version of <code>getSize</code>
* is useful if the caller wants to avoid allocating a new
* <code>Dimension</code> object on the heap.
*
* @param rv the return value, modified to the component's size
* @return <code>rv</code>
*/
public Dimension getSize(Dimension rv) {
if (rv == null) {
return new Dimension(getWidth(), getHeight());
}
else {
rv.setSize(getWidth(), getHeight());
return rv;
}
}
/**
* Stores the x,y origin of this component into "return value"
* <code>rv</code> and returns <code>rv</code>.
* If <code>rv</code> is <code>null</code> a new <code>Point</code>
* is allocated. This version of <code>getLocation</code> is useful
* if the caller wants to avoid allocating a new <code>Point</code>
* object on the heap.
*
* @param rv the return value, modified to the component's location
* @return <code>rv</code>
*/
public Point getLocation(Point rv) {
if (rv == null) {
return new Point(getX(), getY());
}
else {
rv.setLocation(getX(), getY());
return rv;
}
}
/**
* Returns the current x coordinate of the component's origin.
* This method is preferable to writing
* <code>component.getBounds().x</code>, or
* <code>component.getLocation().x</code> because it doesn't cause any
* heap allocations.
*
* @return the current x coordinate of the component's origin
*/
@BeanProperty(bound = false)
public int getX() { return super.getX(); }
/**
* Returns the current y coordinate of the component's origin.
* This method is preferable to writing
* <code>component.getBounds().y</code>, or
* <code>component.getLocation().y</code> because it doesn't cause any
* heap allocations.
*
* @return the current y coordinate of the component's origin
*/
@BeanProperty(bound = false)
public int getY() { return super.getY(); }
/**
* Returns the current width of this component.
* This method is preferable to writing
* <code>component.getBounds().width</code>, or
* <code>component.getSize().width</code> because it doesn't cause any
* heap allocations.
*
* @return the current width of this component
*/
@BeanProperty(bound = false)
public int getWidth() { return super.getWidth(); }
/**
* Returns the current height of this component.
* This method is preferable to writing
* <code>component.getBounds().height</code>, or
* <code>component.getSize().height</code> because it doesn't cause any
* heap allocations.
*
* @return the current height of this component
*/
@BeanProperty(bound = false)
public int getHeight() { return super.getHeight(); }
/**
* Returns true if this component is completely opaque.
* <p>
* 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.
* <p>
* Subclasses that guarantee to always completely paint their contents
* should override this method and return true.
*
* @return true if this component is completely opaque
* @see #setOpaque
*/
public boolean isOpaque() {
return getFlag(IS_OPAQUE);
}
/**
* 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.
* <p>
* The default value of this property is false for <code>JComponent</code>.
* However, the default value for this property on most standard
* <code>JComponent</code> subclasses (such as <code>JButton</code> and
* <code>JTree</code>) is look-and-feel dependent.
*
* @param isOpaque true if this component should be opaque
* @see #isOpaque
*/
@BeanProperty(expert = true, description
= "The component's opacity")
public void setOpaque(boolean isOpaque) {
boolean oldValue = getFlag(IS_OPAQUE);
setFlag(IS_OPAQUE, isOpaque);
setFlag(OPAQUE_SET, true);
firePropertyChange("opaque", oldValue, isOpaque);
}
/**
* If the specified rectangle is completely obscured by any of this
* component's opaque children then returns true. Only direct children
* are considered, more distant descendants are ignored. A
* <code>JComponent</code> is opaque if
* <code>JComponent.isOpaque()</code> returns true, other lightweight
* components are always considered transparent, and heavyweight components
* are always considered opaque.
*
* @param x x value of specified rectangle
* @param y y value of specified rectangle
* @param width width of specified rectangle
* @param height height of specified rectangle
* @return true if the specified rectangle is obscured by an opaque child
*/
boolean rectangleIsObscured(int x,int y,int width,int height)
{
int numChildren = getComponentCount();
for(int i = 0; i < numChildren; i++) {
Component child = getComponent(i);
int cx, cy, cw, ch;
cx = child.getX();
cy = child.getY();
cw = child.getWidth();
ch = child.getHeight();
if (x >= cx && (x + width) <= (cx + cw) &&
y >= cy && (y + height) <= (cy + ch) && child.isVisible()) {
if(child instanceof JComponent) {
// System.out.println("A) checking opaque: " + ((JComponent)child).isOpaque() + " " + child);
// System.out.print("B) ");
// Thread.dumpStack();
return child.isOpaque();
} else {
/** Sometimes a heavy weight can have a bound larger than its peer size
* so we should always draw under heavy weights
*/
return false;
}
}
}
return false;
}
/**
* Returns the <code>Component</code>'s "visible rect rectangle" - the
* intersection of the visible rectangles for the component <code>c</code>
* and all of its ancestors. The return value is stored in
* <code>visibleRect</code>.
*
* @param c the component
* @param visibleRect a <code>Rectangle</code> computed as the
* intersection of all visible rectangles for the component
* <code>c</code> and all of its ancestors -- this is the
* return value for this method
* @see #getVisibleRect
*/
@SuppressWarnings("deprecation")
static final void computeVisibleRect(Component c, Rectangle visibleRect) {
Container p = c.getParent();
Rectangle bounds = c.getBounds();
if (p == null || p instanceof Window || p instanceof Applet) {
visibleRect.setBounds(0, 0, bounds.width, bounds.height);
} else {
computeVisibleRect(p, visibleRect);
visibleRect.x -= bounds.x;
visibleRect.y -= bounds.y;
SwingUtilities.computeIntersection(0,0,bounds.width,bounds.height,visibleRect);
}
}
/**
* Returns the <code>Component</code>'s "visible rect rectangle" - the
* intersection of the visible rectangles for this component
* and all of its ancestors. The return value is stored in
* <code>visibleRect</code>.
*
* @param visibleRect a <code>Rectangle</code> computed as the
* intersection of all visible rectangles for this
* component and all of its ancestors -- this is the return
* value for this method
* @see #getVisibleRect
*/
public void computeVisibleRect(Rectangle visibleRect) {
computeVisibleRect(this, visibleRect);
}
/**
* Returns the <code>Component</code>'s "visible rectangle" - the
* intersection of this component's visible rectangle,
* <code>new Rectangle(0, 0, getWidth(), getHeight())</code>,
* and all of its ancestors' visible rectangles.
*
* @return the visible rectangle
*/
@BeanProperty(bound = false)
public Rectangle getVisibleRect() {
Rectangle visibleRect = new Rectangle();
computeVisibleRect(visibleRect);
return visibleRect;
}
/**
* 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.
*
* @param propertyName the property whose value has changed
* @param oldValue the property's previous value
* @param newValue the property's new value
*/
public void firePropertyChange(String propertyName,
boolean oldValue, boolean newValue) {
super.firePropertyChange(propertyName, oldValue, 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.
*
* @param propertyName the property whose value has changed
* @param oldValue the property's previous value
* @param newValue the property's new value
*/
public void firePropertyChange(String propertyName,
int oldValue, int newValue) {
super.firePropertyChange(propertyName, oldValue, newValue);
}
// XXX This method is implemented as a workaround to a JLS issue with ambiguous
// methods. This should be removed once 4758654 is resolved.
public void firePropertyChange(String propertyName, char oldValue, char newValue) {
super.firePropertyChange(propertyName, oldValue, newValue);
}
/**
* Supports reporting constrained property changes.
* This method can be called when a constrained property has changed
* and it will send the appropriate <code>PropertyChangeEvent</code>
* to any registered <code>VetoableChangeListeners</code>.
*
* @param propertyName the name of the property that was listened on
* @param oldValue the old value of the property
* @param newValue the new value of the property
* @exception java.beans.PropertyVetoException when the attempt to set the
* property is vetoed by the component
*/
protected void fireVetoableChange(String propertyName, Object oldValue, Object newValue)
throws java.beans.PropertyVetoException
{
if (vetoableChangeSupport == null) {
return;
}
vetoableChangeSupport.fireVetoableChange(propertyName, oldValue, newValue);
}
/**
* Adds a <code>VetoableChangeListener</code> to the listener list.
* The listener is registered for all properties.
*
* @param listener the <code>VetoableChangeListener</code> to be added
*/
public synchronized void addVetoableChangeListener(VetoableChangeListener listener) {
if (vetoableChangeSupport == null) {
vetoableChangeSupport = new java.beans.VetoableChangeSupport(this);
}
vetoableChangeSupport.addVetoableChangeListener(listener);
}
/**
* Removes a <code>VetoableChangeListener</code> from the listener list.
* This removes a <code>VetoableChangeListener</code> that was registered
* for all properties.
*
* @param listener the <code>VetoableChangeListener</code> to be removed
*/
public synchronized void removeVetoableChangeListener(VetoableChangeListener listener) {
if (vetoableChangeSupport == null) {
return;
}
vetoableChangeSupport.removeVetoableChangeListener(listener);
}
/**
* Returns an array of all the vetoable change listeners
* registered on this component.
*
* @return all of the component's <code>VetoableChangeListener</code>s
* or an empty
* array if no vetoable change listeners are currently registered
*
* @see #addVetoableChangeListener
* @see #removeVetoableChangeListener
*
* @since 1.4
*/
@BeanProperty(bound = false)
public synchronized VetoableChangeListener[] getVetoableChangeListeners() {
if (vetoableChangeSupport == null) {
return new VetoableChangeListener[0];
}
return vetoableChangeSupport.getVetoableChangeListeners();
}
/**
* Returns the top-level ancestor of this component (either the
* containing <code>Window</code> or <code>Applet</code>),
* or <code>null</code> if this component has not
* been added to any container.
*
* @return the top-level <code>Container</code> that this component is in,
* or <code>null</code> if not in any container
*/
@BeanProperty(bound = false)
@SuppressWarnings("deprecation")
public Container getTopLevelAncestor() {
for(Container p = this; p != null; p = p.getParent()) {
if(p instanceof Window || p instanceof Applet) {
return p;
}
}
return null;
}
private AncestorNotifier getAncestorNotifier() {
return (AncestorNotifier)
getClientProperty(JComponent_ANCESTOR_NOTIFIER);
}
/**
* Registers <code>listener</code> so that it will receive
* <code>AncestorEvents</code> 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.
*
* @param listener the <code>AncestorListener</code> to register
* @see AncestorEvent
*/
public void addAncestorListener(AncestorListener listener) {
AncestorNotifier ancestorNotifier = getAncestorNotifier();
if (ancestorNotifier == null) {
ancestorNotifier = new AncestorNotifier(this);
putClientProperty(JComponent_ANCESTOR_NOTIFIER,
ancestorNotifier);
}
ancestorNotifier.addAncestorListener(listener);
}
/**
* Unregisters <code>listener</code> so that it will no longer receive
* <code>AncestorEvents</code>.
*
* @param listener the <code>AncestorListener</code> to be removed
* @see #addAncestorListener
*/
public void removeAncestorListener(AncestorListener listener) {
AncestorNotifier ancestorNotifier = getAncestorNotifier();
if (ancestorNotifier == null) {
return;
}
ancestorNotifier.removeAncestorListener(listener);
if (ancestorNotifier.listenerList.getListenerList().length == 0) {
ancestorNotifier.removeAllListeners();
putClientProperty(JComponent_ANCESTOR_NOTIFIER, null);
}
}
/**
* Returns an array of all the ancestor listeners
* registered on this component.
*
* @return all of the component's <code>AncestorListener</code>s
* or an empty
* array if no ancestor listeners are currently registered
*
* @see #addAncestorListener
* @see #removeAncestorListener
*
* @since 1.4
*/
@BeanProperty(bound = false)
public AncestorListener[] getAncestorListeners() {
AncestorNotifier ancestorNotifier = getAncestorNotifier();
if (ancestorNotifier == null) {
return new AncestorListener[0];
}
return ancestorNotifier.getAncestorListeners();
}
/**
* Returns an array of all the objects currently registered
* as <code><em>Foo</em>Listener</code>s
* upon this <code>JComponent</code>.
* <code><em>Foo</em>Listener</code>s are registered using the
* <code>add<em>Foo</em>Listener</code> method.
*
* <p>
*
* You can specify the <code>listenerType</code> argument
* with a class literal,
* such as
* <code><em>Foo</em>Listener.class</code>.
* For example, you can query a
* <code>JComponent</code> <code>c</code>
* for its mouse listeners with the following code:
* <pre>MouseListener[] mls = (MouseListener[])(c.getListeners(MouseListener.class));</pre>
* If no such listeners exist, this method returns an empty array.
*
* @param listenerType the type of listeners requested; this parameter
* should specify an interface that descends from
* <code>java.util.EventListener</code>
* @return an array of all objects registered as
* <code><em>Foo</em>Listener</code>s on this component,
* or an empty array if no such
* listeners have been added
* @exception ClassCastException if <code>listenerType</code>
* doesn't specify a class or interface that implements
* <code>java.util.EventListener</code>
*
* @since 1.3
*
* @see #getVetoableChangeListeners
* @see #getAncestorListeners
*/
@SuppressWarnings("unchecked") // Casts to (T[])
public <T extends EventListener> T[] getListeners(Class<T> listenerType) {
T[] result;
if (listenerType == AncestorListener.class) {
// AncestorListeners are handled by the AncestorNotifier
result = (T[])getAncestorListeners();
}
else if (listenerType == VetoableChangeListener.class) {
// VetoableChangeListeners are handled by VetoableChangeSupport
result = (T[])getVetoableChangeListeners();
}
else if (listenerType == PropertyChangeListener.class) {
// PropertyChangeListeners are handled by PropertyChangeSupport
result = (T[])getPropertyChangeListeners();
}
else {
result = listenerList.getListeners(listenerType);
}
if (result.length == 0) {
return super.getListeners(listenerType);
}
return result;
}
/**
* Notifies this component that it now has a parent component.
* When this method is invoked, the chain of parent components is
* set up with <code>KeyboardAction</code> event listeners.
* This method is called by the toolkit internally and should
* not be called directly by programs.
*
* @see #registerKeyboardAction
*/
public void addNotify() {
super.addNotify();
firePropertyChange("ancestor", null, getParent());
registerWithKeyboardManager(false);
registerNextFocusableComponent();
}
/**
* Notifies this component that it no longer has a parent component.
* When this method is invoked, any <code>KeyboardAction</code>s
* set up in the chain of parent components are removed.
* This method is called by the toolkit internally and should
* not be called directly by programs.
*
* @see #registerKeyboardAction
*/
public void removeNotify() {
super.removeNotify();
// This isn't strictly correct. The event shouldn't be
// fired until *after* the parent is set to null. But
// we only get notified before that happens
firePropertyChange("ancestor", getParent(), null);
unregisterWithKeyboardManager();
deregisterNextFocusableComponent();
if (getCreatedDoubleBuffer()) {
RepaintManager.currentManager(this).resetDoubleBuffer();
setCreatedDoubleBuffer(false);
}
if (autoscrolls) {
Autoscroller.stop(this);
}
}
/**
* 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.
*
* @param tm this parameter is not used
* @param x the x value of the dirty region
* @param y the y value of the dirty region
* @param width the width of the dirty region
* @param height the height of the dirty region
* @see #isPaintingOrigin()
* @see java.awt.Component#isShowing
* @see RepaintManager#addDirtyRegion
*/
public void repaint(long tm, int x, int y, int width, int height) {
RepaintManager.currentManager(SunToolkit.targetToAppContext(this))
.addDirtyRegion(this, x, y, width, 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.
*
* @param r a <code>Rectangle</code> containing the dirty region
* @see #isPaintingOrigin()
* @see java.awt.Component#isShowing
* @see RepaintManager#addDirtyRegion
*/
public void repaint(Rectangle r) {
repaint(0,r.x,r.y,r.width,r.height);
}
/**
* Supports deferred automatic layout.
* <p>
* Calls <code>invalidate</code> and then adds this component's
* <code>validateRoot</code> 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, <code>JRootPane</code>, <code>JScrollPane</code>,
* and <code>JTextField</code> return true
* from <code>isValidateRoot</code>.
* <p>
* 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 <code>validate</code> to get the contents of the
* GUI to update.
*
* @see java.awt.Component#invalidate
* @see java.awt.Container#validate
* @see #isValidateRoot
* @see RepaintManager#addInvalidComponent
*/
public void revalidate() {
if (getParent() == null) {
// Note: We don't bother invalidating here as once added
// to a valid parent invalidate will be invoked (addImpl
// invokes addNotify which will invoke invalidate on the
// new Component). Also, if we do add a check to isValid
// here it can potentially be called before the constructor
// which was causing some people grief.
return;
}
if (SunToolkit.isDispatchThreadForAppContext(this)) {
invalidate();
RepaintManager.currentManager(this).addInvalidComponent(this);
}
else {
// To avoid a flood of Runnables when constructing GUIs off
// the EDT, a flag is maintained as to whether or not
// a Runnable has been scheduled.
if (revalidateRunnableScheduled.getAndSet(true)) {
return;
}
SunToolkit.executeOnEventHandlerThread(this, () -> {
revalidateRunnableScheduled.set(false);
revalidate();
});
}
}
/**
* If this method returns true, <code>revalidate</code> calls by
* descendants of this component will cause the entire tree
* beginning with this root to be validated.
* Returns false by default. <code>JScrollPane</code> overrides
* this method and returns true.
*
* @return always returns false
* @see #revalidate
* @see java.awt.Component#invalidate
* @see java.awt.Container#validate
* @see java.awt.Container#isValidateRoot
*/
@Override
public boolean isValidateRoot() {
return false;
}
/**
* 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. <code>JComponent</code> subclasses that can't make this
* guarantee, such as <code>JLayeredPane</code>,
* should override this method to return false.
*
* @return always returns true
*/
@BeanProperty(bound = false)
public boolean isOptimizedDrawingEnabled() {
return true;
}
/**
* Returns {@code true} if a paint triggered on a child component should cause
* painting to originate from this Component, or one of its ancestors.
* <p>
* Calling {@link #repaint} or {@link #paintImmediately(int, int, int, int)}
* on a Swing component will result in calling
* the {@link JComponent#paintImmediately(int, int, int, int)} method of
* the first ancestor which {@code isPaintingOrigin()} returns {@code true}, if there are any.
* <p>
* {@code JComponent} subclasses that need to be painted when any of their
* children are repainted should override this method to return {@code true}.
*
* @return always returns {@code false}
*
* @see #paintImmediately(int, int, int, int)
*/
protected boolean isPaintingOrigin() {
return false;
}
/**
* Paints the specified region in this component and all of its
* descendants that overlap the region, immediately.
* <p>
* 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.
* <p>
* This method is to be overridden when the dirty region needs to be changed
* for components that are painting origins.
*
* @param x the x value of the region to be painted
* @param y the y value of the region to be painted
* @param w the width of the region to be painted
* @param h the height of the region to be painted
* @see #repaint
* @see #isPaintingOrigin()
*/
public void paintImmediately(int x,int y,int w, int h) {
Component c = this;
Component parent;
if(!isShowing()) {
return;
}
JComponent paintingOigin = SwingUtilities.getPaintingOrigin(this);
if (paintingOigin != null) {
Rectangle rectangle = SwingUtilities.convertRectangle(
c, new Rectangle(x, y, w, h), paintingOigin);
paintingOigin.paintImmediately(rectangle.x, rectangle.y, rectangle.width, rectangle.height);
return;
}
while(!c.isOpaque()) {
parent = c.getParent();
if(parent != null) {
x += c.getX();
y += c.getY();
c = parent;
} else {
break;
}
if(!(c instanceof JComponent)) {
break;
}
}
if(c instanceof JComponent) {
((JComponent)c)._paintImmediately(x,y,w,h);
} else {
c.repaint(x,y,w,h);
}
}
/**
* Paints the specified region now.
*
* @param r a <code>Rectangle</code> containing the region to be painted
*/
public void paintImmediately(Rectangle r) {
paintImmediately(r.x,r.y,r.width,r.height);
}
/**
* Returns whether this component should be guaranteed to be on top.
* For example, it would make no sense for <code>Menu</code>s to pop up
* under another component, so they would always return true.
* Most components will want to return false, hence that is the default.
*
* @return always returns false
*/
// package private
boolean alwaysOnTop() {
return false;
}
void setPaintingChild(Component paintingChild) {
this.paintingChild = paintingChild;
}
@SuppressWarnings("deprecation")
void _paintImmediately(int x, int y, int w, int h) {
Graphics g;
Container c;
Rectangle b;
int tmpX, tmpY, tmpWidth, tmpHeight;
int offsetX=0,offsetY=0;
boolean hasBuffer = false;
JComponent bufferedComponent = null;
JComponent paintingComponent = this;
RepaintManager repaintManager = RepaintManager.currentManager(this);
// parent Container's up to Window or Applet. First container is
// the direct parent. Note that in testing it was faster to
// alloc a new Vector vs keeping a stack of them around, and gc
// seemed to have a minimal effect on this.
java.util.List<Component> path = new java.util.ArrayList<Component>(7);
int pIndex = -1;
int pCount = 0;
tmpX = tmpY = tmpWidth = tmpHeight = 0;
Rectangle paintImmediatelyClip = fetchRectangle();
paintImmediatelyClip.x = x;
paintImmediatelyClip.y = y;
paintImmediatelyClip.width = w;
paintImmediatelyClip.height = h;
// System.out.println("1) ************* in _paintImmediately for " + this);
boolean ontop = alwaysOnTop() && isOpaque();
if (ontop) {
SwingUtilities.computeIntersection(0, 0, getWidth(), getHeight(),
paintImmediatelyClip);
if (paintImmediatelyClip.width == 0) {
recycleRectangle(paintImmediatelyClip);
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