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* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
*
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*
* This code is distributed in the hope that it will be useful, but WITHOUT
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* 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).
*
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package javax.swing.plaf.synth;
import java.awt.*;
import java.awt.event.*;
import javax.swing.*;
import javax.swing.plaf.*;
import javax.swing.event.*;
import javax.swing.plaf.basic.*;
import java.beans.PropertyChangeListener;
import java.beans.PropertyChangeEvent;
/**
* Provides the Synth L&F UI delegate for
* {@link javax.swing.JComboBox}.
*
* @author Scott Violet
* @since 1.7
*/
public class SynthComboBoxUI extends BasicComboBoxUI implements
PropertyChangeListener, SynthUI {
private SynthStyle style;
private boolean useListColors;
/**
* Used to adjust the location and size of the popup. Very useful for
* situations such as we find in Nimbus where part of the border is used
* to paint the focus. In such cases, the border is empty space, and not
* part of the "visual" border, and in these cases, you'd like the popup
* to be adjusted such that it looks as if it were next to the visual border.
* You may want to use negative insets to get the right look.
*/
Insets popupInsets;
/**
* This flag may be set via UIDefaults. By default, it is false, to
* preserve backwards compatibility. If true, then the combo will
* "act as a button" when it is not editable.
*/
private boolean buttonWhenNotEditable;
/**
* A flag to indicate that the combo box and combo box button should
* remain in the PRESSED state while the combo popup is visible.
*/
private boolean pressedWhenPopupVisible;
/**
* When buttonWhenNotEditable is true, this field is used to help make
* the combo box appear and function as a button when the combo box is
* not editable. In such a state, you can click anywhere on the button
* to get it to open the popup. Also, anywhere you hover over the combo
* will cause the entire combo to go into "rollover" state, and anywhere
* you press will go into "pressed" state. This also keeps in sync the
* state of the combo and the arrowButton.
*/
private ButtonHandler buttonHandler;
/**
* Handler for repainting combo when editor component gains/looses focus
*/
private EditorFocusHandler editorFocusHandler;
/**
* If true, then the cell renderer will be forced to be non-opaque when
* used for rendering the selected item in the combo box (not in the list),
* and forced to opaque after rendering the selected value.
*/
private boolean forceOpaque = false;
/**
* Creates a new UI object for the given component.
*
* @param c component to create UI object for
* @return the UI object
*/
public static ComponentUI createUI(JComponent c) {
return new SynthComboBoxUI();
}
/**
* {@inheritDoc}
*
* Overridden to ensure that ButtonHandler is created prior to any of
* the other installXXX methods, since several of them reference
* buttonHandler.
*/
@Override
public void installUI(JComponent c) {
buttonHandler = new ButtonHandler();
super.installUI(c);
}
@Override
protected void installDefaults() {
updateStyle(comboBox);
}
private void updateStyle(JComboBox<?> comboBox) {
SynthStyle oldStyle = style;
SynthContext context = getContext(comboBox, ENABLED);
style = SynthLookAndFeel.updateStyle(context, this);
if (style != oldStyle) {
padding = (Insets) style.get(context, "ComboBox.padding");
popupInsets = (Insets)style.get(context, "ComboBox.popupInsets");
useListColors = style.getBoolean(context,
"ComboBox.rendererUseListColors", true);
buttonWhenNotEditable = style.getBoolean(context,
"ComboBox.buttonWhenNotEditable", false);
pressedWhenPopupVisible = style.getBoolean(context,
"ComboBox.pressedWhenPopupVisible", false);
squareButton = style.getBoolean(context,
"ComboBox.squareButton", true);
if (oldStyle != null) {
uninstallKeyboardActions();
installKeyboardActions();
}
forceOpaque = style.getBoolean(context,
"ComboBox.forceOpaque", false);
}
if(listBox != null) {
SynthLookAndFeel.updateStyles(listBox);
}
}
/**
* {@inheritDoc}
*/
@Override
protected void installListeners() {
comboBox.addPropertyChangeListener(this);
comboBox.addMouseListener(buttonHandler);
editorFocusHandler = new EditorFocusHandler(comboBox);
super.installListeners();
}
/**
* {@inheritDoc}
*/
@Override
public void uninstallUI(JComponent c) {
if (popup instanceof SynthComboPopup) {
((SynthComboPopup)popup).removePopupMenuListener(buttonHandler);
}
super.uninstallUI(c);
buttonHandler = null;
}
/**
* {@inheritDoc}
*/
@Override
protected void uninstallDefaults() {
SynthContext context = getContext(comboBox, ENABLED);
style.uninstallDefaults(context);
style = null;
}
/**
* {@inheritDoc}
*/
@Override
protected void uninstallListeners() {
editorFocusHandler.unregister();
comboBox.removePropertyChangeListener(this);
comboBox.removeMouseListener(buttonHandler);
buttonHandler.pressed = false;
buttonHandler.over = false;
super.uninstallListeners();
}
/**
* {@inheritDoc}
*/
@Override
public SynthContext getContext(JComponent c) {
return getContext(c, getComponentState(c));
}
private SynthContext getContext(JComponent c, int state) {
return SynthContext.getContext(c, style, state);
}
private int getComponentState(JComponent c) {
// currently we have a broken situation where if a developer
// takes the border from a JComboBox and sets it on a JTextField
// then the codepath will eventually lead back to this method
// but pass in a JTextField instead of JComboBox! In case this
// happens, we just return the normal synth state for the component
// instead of doing anything special
if (!(c instanceof JComboBox)) return SynthLookAndFeel.getComponentState(c);
JComboBox<?> box = (JComboBox)c;
if (shouldActLikeButton()) {
int state = ENABLED;
if ((!c.isEnabled())) {
state = DISABLED;
}
if (buttonHandler.isPressed()) {
state |= PRESSED;
}
if (buttonHandler.isRollover()) {
state |= MOUSE_OVER;
}
if (box.isFocusOwner()) {
state |= FOCUSED;
}
return state;
} else {
// for editable combos the editor component has the focus not the
// combo box its self, so we should make the combo paint focused
// when its editor has focus
int basicState = SynthLookAndFeel.getComponentState(c);
if (box.isEditable() &&
box.getEditor().getEditorComponent().isFocusOwner()) {
basicState |= FOCUSED;
}
return basicState;
}
}
/**
* {@inheritDoc}
*/
@Override
protected ComboPopup createPopup() {
SynthComboPopup p = new SynthComboPopup(comboBox);
p.addPopupMenuListener(buttonHandler);
return p;
}
/**
* {@inheritDoc}
*/
@Override
protected ListCellRenderer<Object> createRenderer() {
return new SynthComboBoxRenderer();
}
/**
* {@inheritDoc}
*/
@Override
protected ComboBoxEditor createEditor() {
return new SynthComboBoxEditor();
}
//
// end UI Initialization
//======================
/**
* {@inheritDoc}
*/
@Override
public void propertyChange(PropertyChangeEvent e) {
if (SynthLookAndFeel.shouldUpdateStyle(e)) {
updateStyle(comboBox);
}
}
/**
* {@inheritDoc}
*/
@Override
protected JButton createArrowButton() {
SynthArrowButton button = new SynthArrowButton(SwingConstants.SOUTH);
button.setName("ComboBox.arrowButton");
button.setModel(buttonHandler);
return button;
}
//=================================
// begin ComponentUI Implementation
/**
* Notifies this UI delegate to repaint the specified component.
* This method paints the component background, then calls
* the {@link #paint(SynthContext,Graphics)} method.
*
* <p>In general, this method does not need to be overridden by subclasses.
* All Look and Feel rendering code should reside in the {@code paint} method.
*
* @param g the {@code Graphics} object used for painting
* @param c the component being painted
* @see #paint(SynthContext,Graphics)
*/
@Override
public void update(Graphics g, JComponent c) {
SynthContext context = getContext(c);
SynthLookAndFeel.update(context, g);
context.getPainter().paintComboBoxBackground(context, g, 0, 0,
c.getWidth(), c.getHeight());
paint(context, g);
}
/**
* Paints the specified component according to the Look and Feel.
* <p>This method is not used by Synth Look and Feel.
* Painting is handled by the {@link #paint(SynthContext,Graphics)} method.
*
* @param g the {@code Graphics} object used for painting
* @param c the component being painted
* @see #paint(SynthContext,Graphics)
*/
@Override
public void paint(Graphics g, JComponent c) {
SynthContext context = getContext(c);
paint(context, g);
}
/**
* Paints the specified component.
*
* @param context context for the component being painted
* @param g the {@code Graphics} object used for painting
* @see #update(Graphics,JComponent)
*/
protected void paint(SynthContext context, Graphics g) {
hasFocus = comboBox.hasFocus();
if ( !comboBox.isEditable() ) {
Rectangle r = rectangleForCurrentValue();
paintCurrentValue(g,r,hasFocus);
}
}
/**
* {@inheritDoc}
*/
@Override
public void paintBorder(SynthContext context, Graphics g, int x,
int y, int w, int h) {
context.getPainter().paintComboBoxBorder(context, g, x, y, w, h);
}
/**
* Paints the currently selected item.
*/
@Override
public void paintCurrentValue(Graphics g,Rectangle bounds,boolean hasFocus) {
ListCellRenderer<Object> renderer = comboBox.getRenderer();
Component c;
c = renderer.getListCellRendererComponent(
listBox, comboBox.getSelectedItem(), -1, false, false );
// Fix for 4238829: should lay out the JPanel.
boolean shouldValidate = false;
if (c instanceof JPanel) {
shouldValidate = true;
}
if (c instanceof UIResource) {
c.setName("ComboBox.renderer");
}
boolean force = forceOpaque && c instanceof JComponent;
if (force) {
((JComponent)c).setOpaque(false);
}
int x = bounds.x, y = bounds.y, w = bounds.width, h = bounds.height;
if (padding != null) {
x = bounds.x + padding.left;
y = bounds.y + padding.top;
w = bounds.width - (padding.left + padding.right);
h = bounds.height - (padding.top + padding.bottom);
}
currentValuePane.paintComponent(g, c, comboBox, x, y, w, h, shouldValidate);
if (force) {
((JComponent)c).setOpaque(true);
}
}
/**
* @return true if this combo box should act as one big button. Typically
* only happens when buttonWhenNotEditable is true, and comboBox.isEditable
* is false.
*/
private boolean shouldActLikeButton() {
return buttonWhenNotEditable && !comboBox.isEditable();
}
/**
* Returns the default size of an empty display area of the combo box using
* the current renderer and font.
*
* This method was overridden to use SynthComboBoxRenderer instead of
* DefaultListCellRenderer as the default renderer when calculating the
* size of the combo box. This is used in the case of the combo not having
* any data.
*
* @return the size of an empty display area
* @see #getDisplaySize
*/
@Override
protected Dimension getDefaultSize() {
SynthComboBoxRenderer r = new SynthComboBoxRenderer();
Dimension d = getSizeForComponent(r.getListCellRendererComponent(listBox, " ", -1, false, false));
return new Dimension(d.width, d.height);
}
/**
* From BasicComboBoxRenderer v 1.18.
*
* Be aware that SynthFileChooserUIImpl relies on the fact that the default
* renderer installed on a Synth combo box is a JLabel. If this is changed,
* then an assert will fail in SynthFileChooserUIImpl
*/
@SuppressWarnings("serial") // Superclass is not serializable across versions
private class SynthComboBoxRenderer extends JLabel implements ListCellRenderer<Object>, UIResource {
public SynthComboBoxRenderer() {
super();
setText(" ");
}
@Override
public String getName() {
// SynthComboBoxRenderer should have installed Name while constructor is working.
// The setName invocation in the SynthComboBoxRenderer() constructor doesn't work
// because of the opaque property is installed in the constructor based on the
// component name (see GTKStyle.isOpaque())
String name = super.getName();
return name == null ? "ComboBox.renderer" : name;
}
@Override
public Component getListCellRendererComponent(JList<?> list, Object value,
int index, boolean isSelected, boolean cellHasFocus) {
setName("ComboBox.listRenderer");
SynthLookAndFeel.resetSelectedUI();
if (isSelected) {
setBackground(list.getSelectionBackground());
setForeground(list.getSelectionForeground());
if (!useListColors) {
SynthLookAndFeel.setSelectedUI(
(SynthLabelUI)SynthLookAndFeel.getUIOfType(getUI(),
SynthLabelUI.class), isSelected, cellHasFocus,
list.isEnabled(), false);
}
} else {
setBackground(list.getBackground());
setForeground(list.getForeground());
}
setFont(list.getFont());
if (value instanceof Icon) {
setIcon((Icon)value);
setText("");
} else {
String text = (value == null) ? " " : value.toString();
if ("".equals(text)) {
text = " ";
}
setText(text);
}
// The renderer component should inherit the enabled and
// orientation state of its parent combobox. This is
// especially needed for GTK comboboxes, where the
// ListCellRenderer's state determines the visual state
// of the combobox.
if (comboBox != null){
setEnabled(comboBox.isEnabled());
setComponentOrientation(comboBox.getComponentOrientation());
}
return this;
}
@Override
public void paint(Graphics g) {
super.paint(g);
SynthLookAndFeel.resetSelectedUI();
}
}
private static class SynthComboBoxEditor
extends BasicComboBoxEditor.UIResource {
@Override public JTextField createEditorComponent() {
JTextField f = new JTextField("", 9);
f.setName("ComboBox.textField");
return f;
}
}
/**
* Handles all the logic for treating the combo as a button when it is
* not editable, and when shouldActLikeButton() is true. This class is a
* special ButtonModel, and installed on the arrowButton when appropriate.
* It also is installed as a mouse listener and mouse motion listener on
* the combo box. In this way, the state between the button and combo
* are in sync. Whenever one is "over" both are. Whenever one is pressed,
* both are.
*/
@SuppressWarnings("serial") // Superclass is not serializable across versions
private final class ButtonHandler extends DefaultButtonModel
implements MouseListener, PopupMenuListener {
/**
* Indicates that the mouse is over the combo or the arrow button.
* This field only has meaning if buttonWhenNotEnabled is true.
*/
private boolean over;
/**
* Indicates that the combo or arrow button has been pressed. This
* field only has meaning if buttonWhenNotEnabled is true.
*/
private boolean pressed;
//------------------------------------------------------------------
// State Methods
//------------------------------------------------------------------
/**
* <p>Updates the internal "pressed" state. If shouldActLikeButton()
* is true, and if this method call will change the internal state,
* then the combo and button will be repainted.</p>
*
* <p>Note that this method is called either when a press event
* occurs on the combo box, or on the arrow button.</p>
*/
private void updatePressed(boolean p) {
this.pressed = p && isEnabled();
if (shouldActLikeButton()) {
comboBox.repaint();
}
}
/**
* <p>Updates the internal "over" state. If shouldActLikeButton()
* is true, and if this method call will change the internal state,
* then the combo and button will be repainted.</p>
*
* <p>Note that this method is called either when a mouseover/mouseoff event
* occurs on the combo box, or on the arrow button.</p>
*/
private void updateOver(boolean o) {
boolean old = isRollover();
this.over = o && isEnabled();
boolean newo = isRollover();
if (shouldActLikeButton() && old != newo) {
comboBox.repaint();
}
}
//------------------------------------------------------------------
// DefaultButtonModel Methods
//------------------------------------------------------------------
/**
* @inheritDoc
*
* Ensures that isPressed() will return true if the combo is pressed,
* or the arrowButton is pressed, <em>or</em> if the combo popup is
* visible. This is the case because a combo box looks pressed when
* the popup is visible, and so should the arrow button.
*/
@Override
public boolean isPressed() {
boolean b = shouldActLikeButton() ? pressed : super.isPressed();
return b || (pressedWhenPopupVisible && comboBox.isPopupVisible());
}
/**
* @inheritDoc
*
* Ensures that the armed state is in sync with the pressed state
* if shouldActLikeButton is true. Without this method, the arrow
* button will not look pressed when the popup is open, regardless
* of the result of isPressed() alone.
*/
@Override
public boolean isArmed() {
boolean b = shouldActLikeButton() ||
(pressedWhenPopupVisible && comboBox.isPopupVisible());
return b ? isPressed() : super.isArmed();
}
/**
* @inheritDoc
*
* Ensures that isRollover() will return true if the combo is
* rolled over, or the arrowButton is rolled over.
*/
@Override
public boolean isRollover() {
return shouldActLikeButton() ? over : super.isRollover();
}
/**
* @inheritDoc
*
* Forwards pressed states to the internal "pressed" field
*/
@Override
public void setPressed(boolean b) {
super.setPressed(b);
updatePressed(b);
}
/**
* @inheritDoc
*
* Forwards rollover states to the internal "over" field
*/
@Override
public void setRollover(boolean b) {
super.setRollover(b);
updateOver(b);
}
//------------------------------------------------------------------
// MouseListener/MouseMotionListener Methods
//------------------------------------------------------------------
@Override
public void mouseEntered(MouseEvent mouseEvent) {
updateOver(true);
}
@Override
public void mouseExited(MouseEvent mouseEvent) {
updateOver(false);
}
@Override
public void mousePressed(MouseEvent mouseEvent) {
updatePressed(true);
}
@Override
public void mouseReleased(MouseEvent mouseEvent) {
updatePressed(false);
}
@Override
public void mouseClicked(MouseEvent e) {}
//------------------------------------------------------------------
// PopupMenuListener Methods
//------------------------------------------------------------------
/**
* @inheritDoc
*
* Ensures that the combo box is repainted when the popup is closed.
* This avoids a bug where clicking off the combo wasn't causing a repaint,
* and thus the combo box still looked pressed even when it was not.
*
* This bug was only noticed when acting as a button, but may be generally
* present. If so, remove the if() block
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