/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *
* Tiny Look and Feel *
* *
* (C) Copyright 2003 - 2007 Hans Bickel *
* *
* For licensing information and credits, please refer to the *
* comment in file de.muntjak.tinylookandfeel.TinyLookAndFeel *
* *
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
package de.muntjak.tinylookandfeel;
import java.awt.event.*;
import java.beans.PropertyChangeEvent;
import java.beans.PropertyChangeListener;
import javax.swing.*;
import javax.swing.border.*;
import javax.swing.event.*;
import javax.swing.plaf.*;
import javax.swing.plaf.basic.*;
import javax.swing.plaf.metal.*;
import java.awt.*;
import java.io.*;
/*
* Provides the metal look and feel implementation of <code>RootPaneUI</code>.
* <p>
* <code>TinyRootPaneUI</code> provides support for the
* <code>windowDecorationStyle</code> property of <code>JRootPane</code>.
* <code>TinyRootPaneUI</code> does this by way of installing a custom
* <code>LayoutManager</code>, a private <code>Component</code> to render
* the appropriate widgets, and a private <code>Border</code>. The
* <code>LayoutManager</code> is always installed, regardless of the value of
* the <code>windowDecorationStyle</code> property, but the
* <code>Border</code> and <code>Component</code> are only installed/added if
* the <code>windowDecorationStyle</code> is other than
* <code>JRootPane.NONE</code>.
* <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<sup><font size="-2">TM</font></sup>
* has been added to the <code>java.beans</code> package.
* Please see {@link java.beans.XMLEncoder}.
*
* @version 1.14 12/03/01
* @author Terry Kellerman
* @since 1.4
*/
/**
* TinyRootPaneUI
*
* @version 1.0
* @author Hans Bickel
*/
public class TinyRootPaneUI extends BasicRootPaneUI {
/**
* Keys to lookup borders in defaults table.
*/
private static final String[] borderKeys = new String[] {
null, "RootPane.frameBorder", "RootPane.plainDialogBorder",
"RootPane.informationDialogBorder",
"RootPane.errorDialogBorder", "RootPane.colorChooserDialogBorder",
"RootPane.fileChooserDialogBorder", "RootPane.questionDialogBorder",
"RootPane.warningDialogBorder"
};
/**
* The amount of space (in pixels) that the cursor is changed on.
*/
private static final int CORNER_DRAG_WIDTH = 16;
/**
* Region from edges that dragging is active from.
*/
private static final int BORDER_DRAG_THICKNESS = 5;
/**
* Window the <code>JRootPane</code> is in.
*/
private Window window;
/**
* <code>JComponent</code> providing window decorations. This will be
* null if not providing window decorations.
*/
private JComponent titlePane;
/**
* <code>MouseInputListener</code> that is added to the parent
* <code>Window</code> the <code>JRootPane</code> is contained in.
*/
private MouseInputListener mouseInputListener;
/**
* The <code>LayoutManager</code> that is set on the
* <code>JRootPane</code>.
*/
private LayoutManager layoutManager;
/**
* <code>LayoutManager</code> of the <code>JRootPane</code> before we
* replaced it.
*/
private LayoutManager savedOldLayout;
/**
* <code>JRootPane</code> providing the look and feel for.
*/
private JRootPane root;
/**
* <code>Cursor</code> used to track the cursor set by the user.
* This is initially <code>Cursor.DEFAULT_CURSOR</code>.
*/
private Cursor lastCursor =
Cursor.getPredefinedCursor(Cursor.DEFAULT_CURSOR);
/**
* Creates a UI for a <code>JRootPane</code>.
*
* @param c the JRootPane the RootPaneUI will be created for
* @return the RootPaneUI implementation for the passed in JRootPane
*/
public static ComponentUI createUI(JComponent c) {
return new TinyRootPaneUI();
}
/**
* Invokes supers implementation of <code>installUI</code> to install
* the necessary state onto the passed in <code>JRootPane</code>
* to render the metal look and feel implementation of
* <code>RootPaneUI</code>. If
* the <code>windowDecorationStyle</code> property of the
* <code>JRootPane</code> is other than <code>JRootPane.NONE</code>,
* this will add a custom <code>Component</code> to render the widgets to
* <code>JRootPane</code>, as well as installing a custom
* <code>Border</code> and <code>LayoutManager</code> on the
* <code>JRootPane</code>.
*
* @param c the JRootPane to install state onto
*/
public void installUI(JComponent c) {
super.installUI(c);
root = (JRootPane)c;
int style = root.getWindowDecorationStyle();
if (style != JRootPane.NONE) {
installClientDecorations(root);
}
}
/**
* Invokes supers implementation to uninstall any of its state. This will
* also reset the <code>LayoutManager</code> of the <code>JRootPane</code>.
* If a <code>Component</code> has been added to the <code>JRootPane</code>
* to render the window decoration style, this method will remove it.
* Similarly, this will revert the Border and LayoutManager of the
* <code>JRootPane</code> to what it was before <code>installUI</code>
* was invoked.
*
* @param c the JRootPane to uninstall state from
*/
public void uninstallUI(JComponent c) {
super.uninstallUI(c);
uninstallClientDecorations(root);
layoutManager = null;
mouseInputListener = null;
root = null;
}
/**
* Installs the appropriate <code>Border</code> onto the
* <code>JRootPane</code>.
*/
void installBorder(JRootPane root) {
int style = root.getWindowDecorationStyle();
if (style == JRootPane.NONE) {
LookAndFeel.uninstallBorder(root);
}
else {
// installs an instance of TinyFrameBorder
LookAndFeel.installBorder(root, borderKeys[style]);
}
}
/**
* Removes any border that may have been installed.
*/
private void uninstallBorder(JRootPane root) {
LookAndFeel.uninstallBorder(root);
}
/**
* Installs the necessary Listeners on the parent <code>Window</code>,
* if there is one.
* <p>
* This takes the parent so that cleanup can be done from
* <code>removeNotify</code>, at which point the parent hasn't been
* reset yet.
*
* @param parent The parent of the JRootPane
*/
private void installWindowListeners(JRootPane root, Component parent) {
if (parent instanceof Window) {
window = (Window)parent;
}
else {
window = SwingUtilities.getWindowAncestor(parent);
}
if (window != null) {
if (mouseInputListener == null) {
mouseInputListener = createWindowMouseInputListener(root);
}
window.addMouseListener(mouseInputListener);
window.addMouseMotionListener(mouseInputListener);
}
}
/**
* Uninstalls the necessary Listeners on the <code>Window</code> the
* Listeners were last installed on.
*/
private void uninstallWindowListeners(JRootPane root) {
if (window != null) {
window.removeMouseListener(mouseInputListener);
window.removeMouseMotionListener(mouseInputListener);
}
}
/**
* Installs the appropriate LayoutManager on the <code>JRootPane</code>
* to render the window decorations.
*/
private void installLayout(JRootPane root) {
if (layoutManager == null) {
layoutManager = createLayoutManager();
}
savedOldLayout = root.getLayout();
root.setLayout(layoutManager);
}
/**
* Uninstalls the previously installed <code>LayoutManager</code>.
*/
private void uninstallLayout(JRootPane root) {
if (savedOldLayout != null) {
root.setLayout(savedOldLayout);
savedOldLayout = null;
}
}
/**
* Installs the necessary state onto the JRootPane to render client
* decorations. This is ONLY invoked if the <code>JRootPane</code>
* has a decoration style other than <code>JRootPane.NONE</code>.
*/
private void installClientDecorations(JRootPane root) {
installBorder(root);
JComponent titlePane = createTitlePane(root);
setTitlePane(root, titlePane);
installWindowListeners(root, root.getParent());
installLayout(root);
if (window != null) {
root.revalidate();
root.repaint();
}
}
/**
* Uninstalls any state that <code>installClientDecorations</code> has
* installed.
* <p>
* NOTE: This may be called if you haven't installed client decorations
* yet (ie before <code>installClientDecorations</code> has been invoked).
*/
private void uninstallClientDecorations(JRootPane root) {
uninstallBorder(root);
uninstallWindowListeners(root);
setTitlePane(root, null);
uninstallLayout(root);
root.repaint();
root.revalidate();
// Reset the cursor, as we may have changed it to a resize cursor
if (window != null) {
window.setCursor(Cursor.getPredefinedCursor
(Cursor.DEFAULT_CURSOR));
}
window = null;
}
/**
* Returns the <code>JComponent</code> to render the window decoration
* style.
*/
private JComponent createTitlePane(JRootPane root) {
return new TinyTitlePane(root, this);
}
/**
* Returns a <code>MouseListener</code> that will be added to the
* <code>Window</code> containing the <code>JRootPane</code>.
*/
private MouseInputListener createWindowMouseInputListener(JRootPane root) {
return new MouseInputHandler();
}
/**
* Returns a <code>LayoutManager</code> that will be set on the
* <code>JRootPane</code>.
*/
private LayoutManager createLayoutManager() {
return new MetalRootLayout();
}
/**
* Sets the window title pane -- the JComponent used to provide a plaf a
* way to override the native operating system's window title pane with
* one whose look and feel are controlled by the plaf. The plaf creates
* and sets this value; the default is null, implying a native operating
* system window title pane.
*
* @param content the <code>JComponent</code> to use for the window title pane.
*/
private void setTitlePane(JRootPane root, JComponent titlePane) {
JLayeredPane layeredPane = root.getLayeredPane();
JComponent oldTitlePane = getTitlePane();
if (oldTitlePane != null) {
oldTitlePane.setVisible(false);
layeredPane.remove(oldTitlePane);
}
if (titlePane != null) {
layeredPane.add(titlePane, JLayeredPane.FRAME_CONTENT_LAYER);
titlePane.setVisible(true);
}
this.titlePane = titlePane;
root.validate();
root.repaint();
}
/**
* Returns the <code>JComponent</code> rendering the title pane. If this
* returns null, it implies there is no need to render window decorations.
*
* @return the current window title pane, or null
* @see #setTitlePane
*/
private JComponent getTitlePane() {
return titlePane;
}
/**
* Returns the <code>JRootPane</code> we're providing the look and
* feel for.
*/
private JRootPane getRootPane() {
return root;
}
/**
* Invoked when a property changes. <code>TinyRootPaneUI</code> is
* primarily interested in events originating from the
* <code>JRootPane</code> it has been installed on identifying the
* property <code>windowDecorationStyle</code>. If the
* <code>windowDecorationStyle</code> has changed to a value other
* than <code>JRootPane.NONE</code>, this will add a <code>Component</code>
* to the <code>JRootPane</code> to render the window decorations, as well
* as installing a <code>Border</code> on the <code>JRootPane</code>.
* On the other hand, if the <code>windowDecorationStyle</code> has
* changed to <code>JRootPane.NONE</code>, this will remove the
* <code>Component</code> that has been added to the <code>JRootPane</code>
* as well resetting the Border to what it was before
* <code>installUI</code> was invoked.
*
* @param e A PropertyChangeEvent object describing the event source
* and the property that has changed.
*/
public void propertyChange(PropertyChangeEvent e) {
super.propertyChange(e);
String propertyName = e.getPropertyName();
if(propertyName == null) {
return;
}
if(propertyName.equals("windowDecorationStyle")) {
JRootPane root = (JRootPane) e.getSource();
int style = root.getWindowDecorationStyle();
// This is potentially more than needs to be done,
// but it rarely happens and makes the install/uninstall process
// simpler. MetalTitlePane also assumes it will be recreated if
// the decoration style changes.
uninstallClientDecorations(root);
if (style != JRootPane.NONE) {
installClientDecorations(root);
}
}
else if (propertyName.equals("ancestor")) {
uninstallWindowListeners(root);
if (((JRootPane)e.getSource()).getWindowDecorationStyle() !=
JRootPane.NONE) {
installWindowListeners(root, root.getParent());
}
}
return;
}
/**
* A custom layout manager that is responsible for the layout of
* layeredPane, glassPane, menuBar and titlePane, if one has been
* installed.
*/
// NOTE: Ideally this would extends JRootPane.RootLayout, but that
// would force this to be non-static.
private static class MetalRootLayout implements LayoutManager2 {
/**
* Returns the amount of space the layout would like to have.
*
* @param the Container for which this layout manager is being used
* @return a Dimension object containing the layout's preferred size
*/
public Dimension preferredLayoutSize(Container parent) {
Dimension cpd, mbd, tpd;
int cpWidth = 0;
int cpHeight = 0;
int mbWidth = 0;
int mbHeight = 0;
int tpWidth = 0;
int tpHeight = 0;
Insets i = parent.getInsets();
JRootPane root = (JRootPane) parent;
if(root.getContentPane() != null) {
cpd = root.getContentPane().getPreferredSize();
} else {
cpd = root.getSize();
}
if (cpd != null) {
cpWidth = cpd.width;
cpHeight = cpd.height;
}
if(root.getJMenuBar() != null) {
mbd = root.getJMenuBar().getPreferredSize();
if (mbd != null) {
mbWidth = mbd.width;
mbHeight = mbd.height;
}
}
if (root.getWindowDecorationStyle() != JRootPane.NONE &&
(root.getUI() instanceof TinyRootPaneUI)) {
JComponent titlePane = ((TinyRootPaneUI)root.getUI()).
getTitlePane();
if (titlePane != null) {
tpd = titlePane.getPreferredSize();
if (tpd != null) {
tpWidth = tpd.width;
tpHeight = tpd.height;
}
}
}
return new Dimension(
Math.max(Math.max(cpWidth, mbWidth), tpWidth) + i.left + i.right,
cpHeight + mbHeight + tpHeight + i.top + i.bottom);
}
/**
* Returns the minimum amount of space the layout needs.
*
* @param the Container for which this layout manager is being used
* @return a Dimension object containing the layout's minimum size
*/
public Dimension minimumLayoutSize(Container parent) {
Dimension cpd, mbd, tpd;
int cpWidth = 0;
int cpHeight = 0;
int mbWidth = 0;
int mbHeight = 0;
int tpWidth = 0;
int tpHeight = 0;
Insets i = parent.getInsets();
JRootPane root = (JRootPane) parent;
if(root.getContentPane() != null) {
cpd = root.getContentPane().getMinimumSize();
} else {
cpd = root.getSize();
}
if (cpd != null) {
cpWidth = cpd.width;
cpHeight = cpd.height;
}
if(root.getJMenuBar() != null) {
mbd = root.getJMenuBar().getMinimumSize();
if (mbd != null) {
mbWidth = mbd.width;
mbHeight = mbd.height;
}
}
if (root.getWindowDecorationStyle() != JRootPane.NONE &&
(root.getUI() instanceof TinyRootPaneUI)) {
JComponent titlePane = ((TinyRootPaneUI)root.getUI()).
getTitlePane();
if (titlePane != null) {
tpd = titlePane.getMinimumSize();
if (tpd != null) {
tpWidth = tpd.width;
tpHeight = tpd.height;
}
}
}
return new Dimension(
Math.max(Math.max(cpWidth, mbWidth), tpWidth) + i.left + i.right,
cpHeight + mbHeight + tpHeight + i.top + i.bottom);
}
/**
* Returns the maximum amount of space the layout can use.
*
* @param the Container for which this layout manager is being used
* @return a Dimension object containing the layout's maximum size
*/
public Dimension maximumLayoutSize(Container target) {
Dimension cpd, mbd, tpd;
int cpWidth = Integer.MAX_VALUE;
int cpHeight = Integer.MAX_VALUE;
int mbWidth = Integer.MAX_VALUE;
int mbHeight = Integer.MAX_VALUE;
int tpWidth = Integer.MAX_VALUE;
int tpHeight = Integer.MAX_VALUE;
Insets i = target.getInsets();
JRootPane root = (JRootPane) target;
if(root.getContentPane() != null) {
cpd = root.getContentPane().getMaximumSize();
if (cpd != null) {
cpWidth = cpd.width;
cpHeight = cpd.height;
}
}
if(root.getJMenuBar() != null) {
mbd = root.getJMenuBar().getMaximumSize();
if (mbd != null) {
mbWidth = mbd.width;
mbHeight = mbd.height;
}
}
if (root.getWindowDecorationStyle() != JRootPane.NONE &&
(root.getUI() instanceof TinyRootPaneUI)) {
JComponent titlePane = ((TinyRootPaneUI)root.getUI()).
getTitlePane();
if (titlePane != null)
{
tpd = titlePane.getMaximumSize();
if (tpd != null) {
tpWidth = tpd.width;
tpHeight = tpd.height;
}
}
}
int maxHeight = Math.max(Math.max(cpHeight, mbHeight), tpHeight);
// Only overflows if 3 real non-MAX_VALUE heights, sum to > MAX_VALUE
// Only will happen if sums to more than 2 billion units. Not likely.
if (maxHeight != Integer.MAX_VALUE) {
maxHeight = cpHeight + mbHeight + tpHeight + i.top + i.bottom;
}
int maxWidth = Math.max(Math.max(cpWidth, mbWidth), tpWidth);
// Similar overflow comment as above
if (maxWidth != Integer.MAX_VALUE) {
maxWidth += i.left + i.right;
}
return new Dimension(maxWidth, maxHeight);
}
/**
* Instructs the layout manager to perform the layout for the specified
* container.
*
* @param the Container for which this layout manager is being used
*/
public void layoutContainer(Container parent) {
JRootPane root = (JRootPane) parent;
Rectangle b = root.getBounds();
Insets i = root.getInsets();
int nextY = 0;
int w = b.width - i.right - i.left;
int h = b.height - i.top - i.bottom;
if(root.getLayeredPane() != null) {
root.getLayeredPane().setBounds(i.left, i.top, w, h);
}
if(root.getGlassPane() != null) {
root.getGlassPane().setBounds(i.left, i.top, w, h);
}
// Note: This is laying out the children in the layeredPane,
// technically, these are not our children.
if (root.getWindowDecorationStyle() != JRootPane.NONE &&
(root.getUI() instanceof TinyRootPaneUI)) {
JComponent titlePane = ((TinyRootPaneUI)root.getUI()).
getTitlePane();
if (titlePane != null) {
Dimension tpd = titlePane.getPreferredSize();
if (tpd != null) {
int tpHeight = tpd.height;
titlePane.setBounds(0, 0, w, tpHeight);
nextY += tpHeight;
}
}
}
if(root.getJMenuBar() != null) {
Dimension mbd = root.getJMenuBar().getPreferredSize();
root.getJMenuBar().setBounds(0, nextY, w, mbd.height);
nextY += mbd.height;
}
if(root.getContentPane() != null) {
Dimension cpd = root.getContentPane().getPreferredSize();
root.getContentPane().setBounds(0, nextY, w,
h < nextY ? 0 : h - nextY);
}
}
public void addLayoutComponent(String name, Component comp) {}
public void removeLayoutComponent(Component comp) {}
public void addLayoutComponent(Component comp, Object constraints) {}
public float getLayoutAlignmentX(Container target) { return 0.0f; }
public float getLayoutAlignmentY(Container target) { return 0.0f; }
public void invalidateLayout(Container target) {}
}
/**
* Maps from positions to cursor type. Refer to calculateCorner and
* calculatePosition for details of this.
*/
private static final int[] cursorMapping = new int[]
{ Cursor.NW_RESIZE_CURSOR, Cursor.NW_RESIZE_CURSOR, Cursor.N_RESIZE_CURSOR,
Cursor.NE_RESIZE_CURSOR, Cursor.NE_RESIZE_CURSOR,
Cursor.NW_RESIZE_CURSOR, 0, 0, 0, Cursor.NE_RESIZE_CURSOR,
Cursor.W_RESIZE_CURSOR, 0, 0, 0, Cursor.E_RESIZE_CURSOR,
Cursor.SW_RESIZE_CURSOR, 0, 0, 0, Cursor.SE_RESIZE_CURSOR,
Cursor.SW_RESIZE_CURSOR, Cursor.SW_RESIZE_CURSOR, Cursor.S_RESIZE_CURSOR,
Cursor.SE_RESIZE_CURSOR, Cursor.SE_RESIZE_CURSOR
};
/**
* MouseInputHandler is responsible for handling resize/moving of
* the Window. It sets the cursor directly on the Window when then
* mouse moves over a hot spot.
*/
private class MouseInputHandler implements MouseInputListener {
/**
* Set to true if the drag operation is moving the window.
*/
private boolean isMovingWindow;
/**
* Used to determine the corner the resize is occuring from.
*/
private int dragCursor;
/**
* X location the mouse went down on for a drag operation.
*/
private int dragOffsetX;
/**
* Y location the mouse went down on for a drag operation.
*/
private int dragOffsetY;
/**
* Width of the window when the drag started.
*/
private int dragWidth;
/**
* Height of the window when the drag started.
*/
private int dragHeight;
public void mousePressed(MouseEvent ev) {
JRootPane rootPane = getRootPane();
if(rootPane.getWindowDecorationStyle() == JRootPane.NONE) {
return;
}
Point dragWindowOffset = ev.getPoint();
Window w = (Window)ev.getSource();
Point convertedDragWindowOffset = SwingUtilities.convertPoint(
w, dragWindowOffset, getTitlePane());
Frame f = null;
Dialog d = null;
if (w instanceof Frame) {
f = (Frame)w;
} else if (w instanceof Dialog) {
d = (Dialog)w;
}
int frameState = (f != null) ? f.getExtendedState() : 0;
if (getTitlePane() != null &&
getTitlePane().contains(convertedDragWindowOffset)) {
if (ev.getClickCount() == 2) {
if (f != null && f.isResizable()) {
if ((frameState & Frame.MAXIMIZED_HORIZ) ==
Frame.MAXIMIZED_HORIZ ||
(frameState & Frame.MAXIMIZED_VERT) ==
Frame.MAXIMIZED_VERT) {
f.setExtendedState(frameState &
~Frame.MAXIMIZED_BOTH);
}
else {
f.setExtendedState(frameState |
Frame.MAXIMIZED_BOTH);
}
return;
}
}
if (((f != null && ((frameState & Frame.MAXIMIZED_HORIZ) !=
Frame.MAXIMIZED_HORIZ &&
(frameState & Frame.MAXIMIZED_VERT) !=
Frame.MAXIMIZED_VERT)) || (d != null)) &&
dragWindowOffset.y >= BORDER_DRAG_THICKNESS &&
dragWindowOffset.x >= BORDER_DRAG_THICKNESS &&
dragWindowOffset.x < w.getWidth() - BORDER_DRAG_THICKNESS){
isMovingWindow = true;
dragOffsetX = dragWindowOffset.x;
dragOffsetY = dragWindowOffset.y;
}
}
else if ((f != null && f.isResizable() &&
((frameState & Frame.MAXIMIZED_HORIZ) !=
Frame.MAXIMIZED_HORIZ &&
(frameState & Frame.MAXIMIZED_VERT) !=
Frame.MAXIMIZED_VERT)) || (d != null &&
d.isResizable())) {
dragOffsetX = dragWindowOffset.x;
dragOffsetY = dragWindowOffset.y;
dragWidth = w.getWidth();
dragHeight = w.getHeight();
dragCursor = getCursor(calculateCorner(
w, dragWindowOffset.x, dragWindowOffset.y));
}
}
public void mouseReleased(MouseEvent ev) {
if (dragCursor != 0 && window != null && !window.isValid()) {
// Some Window systems validate as you resize, others won't,
// thus the check for validity before repainting.
window.validate();
getRootPane().repaint();
}
isMovingWindow = false;
dragCursor = 0;
}
public void mouseMoved(MouseEvent ev) {
JRootPane root = getRootPane();
if (root.getWindowDecorationStyle() == JRootPane.NONE) {
return;
}
Window w = (Window)ev.getSource();
Frame f = null;
Dialog d = null;
if (w instanceof Frame) {
f = (Frame)w;
} else if (w instanceof Dialog) {
d = (Dialog)w;
}
// Update the cursor
int cursor = getCursor(calculateCorner(w, ev.getX(), ev.getY()));
if (cursor != 0 && ((f != null && (f.isResizable() &&
(f.getExtendedState() & Frame.MAXIMIZED_VERT) !=
Frame.MAXIMIZED_VERT &&
(f.getExtendedState() & Frame.MAXIMIZED_HORIZ) !=
Frame.MAXIMIZED_HORIZ)) ||
(d != null && d.isResizable()))) {
w.setCursor(Cursor.getPredefinedCursor(cursor));
}
else {
w.setCursor(lastCursor);
}
}
private void adjust(Rectangle bounds, Dimension min, int deltaX,
int deltaY, int deltaWidth, int deltaHeight)
{
bounds.x += deltaX;
bounds.y += deltaY;
bounds.width += deltaWidth;
bounds.height += deltaHeight;
if (min != null) {
if (bounds.width < min.width) {
int correction = min.width - bounds.width;
if (deltaX != 0) {
bounds.x -= correction;
}
bounds.width = min.width;
}
if (bounds.height < min.height) {
int correction = min.height - bounds.height;
if (deltaY != 0) {
bounds.y -= correction;
}
bounds.height = min.height;
}
}
}
public void mouseDragged(MouseEvent ev) {
Window w = (Window)ev.getSource();
Point pt = ev.getPoint();
if(isMovingWindow) {
Point windowPt = w.getLocationOnScreen();
windowPt.x += pt.x - dragOffsetX;
windowPt.y += pt.y - dragOffsetY;
w.setLocation(windowPt);
}
else if(dragCursor != 0) {
Rectangle r = w.getBounds();
Rectangle startBounds = new Rectangle(r);
Dimension min = w.getMinimumSize();
switch (dragCursor) {
case Cursor.E_RESIZE_CURSOR:
adjust(r, min, 0, 0, pt.x + (dragWidth - dragOffsetX) -
r.width, 0);
break;
case Cursor.S_RESIZE_CURSOR:
adjust(r, min, 0, 0, 0, pt.y + (dragHeight - dragOffsetY) -
r.height);
break;
case Cursor.N_RESIZE_CURSOR:
adjust(r, min, 0, pt.y -dragOffsetY, 0,
-(pt.y - dragOffsetY));
break;
case Cursor.W_RESIZE_CURSOR:
adjust(r, min, pt.x - dragOffsetX, 0,
-(pt.x - dragOffsetX), 0);
break;
case Cursor.NE_RESIZE_CURSOR:
adjust(r, min, 0, pt.y - dragOffsetY,
pt.x + (dragWidth - dragOffsetX) - r.width,
-(pt.y - dragOffsetY));
break;
case Cursor.SE_RESIZE_CURSOR:
adjust(r, min, 0, 0,
pt.x + (dragWidth - dragOffsetX) - r.width,
pt.y + (dragHeight - dragOffsetY) -
r.height);
break;
case Cursor.NW_RESIZE_CURSOR:
adjust(r, min, pt.x - dragOffsetX,
pt.y - dragOffsetY,
-(pt.x - dragOffsetX),
-(pt.y - dragOffsetY));
break;
case Cursor.SW_RESIZE_CURSOR:
adjust(r, min, pt.x - dragOffsetX, 0,
-(pt.x - dragOffsetX),
pt.y + (dragHeight - dragOffsetY) - r.height);
break;
default:
break;
}
if (!r.equals(startBounds)) {
w.setBounds(r);
// Defer repaint/validate on mouseReleased unless dynamic
// layout is active.
// REM: not active on my system... (Win 2000 Server)
if (Toolkit.getDefaultToolkit().isDynamicLayoutActive()) {
w.validate();
getRootPane().repaint();
}
}
}
}
public void mouseEntered(MouseEvent ev) {
Window w = (Window)ev.getSource();
lastCursor = w.getCursor();
mouseMoved(ev);
}
public void mouseExited(MouseEvent ev) {
Window w = (Window)ev.getSource();
w.setCursor(lastCursor);
}
public void mouseClicked(MouseEvent ev) {
}
/**
* Returns the corner that contains the point <code>x</code>,
* <code>y</code>, or -1 if the position doesn't match a corner.
*/
private int calculateCorner(Component c, int x, int y) {
int xPosition = calculatePosition(x, c.getWidth());
int yPosition = calculatePosition(y, c.getHeight());
if (xPosition == -1 || yPosition == -1) {
return -1;
}
return yPosition * 5 + xPosition;
}
/**
* Returns the Cursor to render for the specified corner. This returns
* 0 if the corner doesn't map to a valid Cursor
*/
private int getCursor(int corner) {
if (corner == -1) {
return 0;
}
return cursorMapping[corner];
}
/**
* Returns an integer indicating the position of <code>spot</code>
* in <code>width</code>. The return value will be:
* 0 if < BORDER_DRAG_THICKNESS
* 1 if < CORNER_DRAG_WIDTH
* 2 if >= CORNER_DRAG_WIDTH && < width - BORDER_DRAG_THICKNESS
* 3 if >= width - CORNER_DRAG_WIDTH
* 4 if >= width - BORDER_DRAG_THICKNESS
* 5 otherwise
*/
private int calculatePosition(int spot, int width) {
if (spot < BORDER_DRAG_THICKNESS) {
return 0;
}
if (spot < CORNER_DRAG_WIDTH) {
return 1;
}
if (spot >= (width - BORDER_DRAG_THICKNESS)) {
return 4;
}
if (spot >= (width - CORNER_DRAG_WIDTH)) {
return 3;
}
return 2;
}
}
}