/*
* Copyright (c) 2002, 2009, 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 sun.swing;
import java.security.*;
import java.lang.reflect.*;
import java.lang.ref.SoftReference;
import java.awt.*;
import static java.awt.RenderingHints.*;
import java.awt.event.*;
import java.awt.font.*;
import java.awt.print.PrinterGraphics;
import java.text.AttributedCharacterIterator;
import java.text.AttributedString;
import javax.swing.*;
import javax.swing.text.Highlighter;
import javax.swing.text.JTextComponent;
import javax.swing.text.DefaultHighlighter;
import javax.swing.text.DefaultCaret;
import javax.swing.table.TableCellRenderer;
import sun.print.ProxyPrintGraphics;
import sun.awt.*;
import java.io.*;
import java.util.*;
import sun.font.FontDesignMetrics;
import sun.font.FontManager;
import java.util.concurrent.Callable;
import java.util.concurrent.Future;
import java.util.concurrent.FutureTask;
/**
* A collection of utility methods for Swing.
* <p>
* <b>WARNING:</b> While this class is public, it should not be treated as
* public API and its API may change in incompatable ways between dot dot
* releases and even patch releases. You should not rely on this class even
* existing.
*
*/
public class SwingUtilities2 {
/**
* The <code>AppContext</code> key for our one <code>LAFState</code>
* instance.
*/
public static final Object LAF_STATE_KEY = new Object(); // LookAndFeel State
// Most of applications use 10 or less fonts simultaneously
private static final int STRONG_BEARING_CACHE_SIZE = 10;
// Strong cache for the left and right side bearings
// for STRONG_BEARING_CACHE_SIZE most recently used fonts.
private static BearingCacheEntry[] strongBearingCache =
new BearingCacheEntry[STRONG_BEARING_CACHE_SIZE];
// Next index to insert an entry into the strong bearing cache
private static int strongBearingCacheNextIndex = 0;
// Soft cache for the left and right side bearings
private static Set<SoftReference<BearingCacheEntry>> softBearingCache =
new HashSet<SoftReference<BearingCacheEntry>>();
public static final FontRenderContext DEFAULT_FRC =
new FontRenderContext(null, false, false);
/**
* A JComponent client property is used to determine text aa settings.
* To avoid having this property persist between look and feels changes
* the value of the property is set to null in JComponent.setUI
*/
public static final Object AA_TEXT_PROPERTY_KEY = new Object(); // AATextInfoPropertyKey
/**
* Used to tell a text component, being used as an editor for table
* or tree, how many clicks it took to start editing.
*/
private static final Object SKIP_CLICK_COUNT = new Object(); // skipClickCount
/* Presently this class assumes default fractional metrics.
* This may need to change to emulate future platform L&Fs.
*/
public static class AATextInfo {
private static AATextInfo getAATextInfoFromMap(Map hints) {
Object aaHint = hints.get(KEY_TEXT_ANTIALIASING);
Object contHint = hints.get(KEY_TEXT_LCD_CONTRAST);
if (aaHint == null ||
aaHint == VALUE_TEXT_ANTIALIAS_OFF ||
aaHint == VALUE_TEXT_ANTIALIAS_DEFAULT) {
return null;
} else {
return new AATextInfo(aaHint, (Integer)contHint);
}
}
public static AATextInfo getAATextInfo(boolean lafCondition) {
SunToolkit.setAAFontSettingsCondition(lafCondition);
Toolkit tk = Toolkit.getDefaultToolkit();
Object map = tk.getDesktopProperty(SunToolkit.DESKTOPFONTHINTS);
if (map instanceof Map) {
return getAATextInfoFromMap((Map)map);
} else {
return null;
}
}
Object aaHint;
Integer lcdContrastHint;
FontRenderContext frc;
/* These are rarely constructed objects, and only when a complete
* UI is being updated, so the cost of the tests here is minimal
* and saves tests elsewhere.
* We test that the values are ones we support/expect.
*/
public AATextInfo(Object aaHint, Integer lcdContrastHint) {
if (aaHint == null) {
throw new InternalError("null not allowed here");
}
if (aaHint == VALUE_TEXT_ANTIALIAS_OFF ||
aaHint == VALUE_TEXT_ANTIALIAS_DEFAULT) {
throw new InternalError("AA must be on");
}
this.aaHint = aaHint;
this.lcdContrastHint = lcdContrastHint;
this.frc = new FontRenderContext(null, aaHint,
VALUE_FRACTIONALMETRICS_DEFAULT);
}
}
/**
* Key used in client properties used to indicate that the
* <code>ComponentUI</code> of the JComponent instance should be returned.
*/
public static final Object COMPONENT_UI_PROPERTY_KEY = new Object(); // ComponentUIPropertyKey
/** Client Property key for the text maximal offsets for BasicMenuItemUI */
public static final StringUIClientPropertyKey BASICMENUITEMUI_MAX_TEXT_OFFSET =
new StringUIClientPropertyKey ("maxTextOffset");
// security stuff
private static Field inputEvent_CanAccessSystemClipboard_Field = null;
private static final String UntrustedClipboardAccess =
"UNTRUSTED_CLIPBOARD_ACCESS_KEY";
//all access to charsBuffer is to be synchronized on charsBufferLock
private static final int CHAR_BUFFER_SIZE = 100;
private static final Object charsBufferLock = new Object();
private static char[] charsBuffer = new char[CHAR_BUFFER_SIZE];
/**
* checks whether TextLayout is required to handle characters.
*
* @param text characters to be tested
* @param start start
* @param limit limit
* @return <tt>true</tt> if TextLayout is required
* <tt>false</tt> if TextLayout is not required
*/
public static final boolean isComplexLayout(char[] text, int start, int limit) {
//jnode return FontManager.isComplexText(text, start, limit);
return false;
}
//
// WARNING WARNING WARNING WARNING WARNING WARNING
// Many of the following methods are invoked from older API.
// As this older API was not passed a Component, a null Component may
// now be passsed in. For example, SwingUtilities.computeStringWidth
// is implemented to call SwingUtilities2.stringWidth, the
// SwingUtilities variant does not take a JComponent, as such
// SwingUtilities2.stringWidth can be passed a null Component.
// In other words, if you add new functionality to these methods you
// need to gracefully handle null.
//
/**
* Returns whether or not text should be drawn antialiased.
*
* @param c JComponent to test.
* @return Whether or not text should be drawn antialiased for the
* specified component.
*/
public static AATextInfo drawTextAntialiased(JComponent c) {
if (c != null) {
/* a non-null property implies some form of AA requested */
return (AATextInfo)c.getClientProperty(AA_TEXT_PROPERTY_KEY);
}
// No component, assume aa is off
return null;
}
/**
* Returns the left side bearing of the first character of string. The
* left side bearing is calculated from the passed in FontMetrics.
*
* @param c JComponent that will display the string
* @param fm FontMetrics used to measure the String width
* @param string String to get the left side bearing for.
*/
public static int getLeftSideBearing(JComponent c, FontMetrics fm,
String string) {
if ((string == null) || (string.length() == 0)) {
return 0;
}
return getLeftSideBearing(c, fm, string.charAt(0));
}
/**
* Returns the left side bearing of the specified character. The
* left side bearing is calculated from the passed in FontMetrics.
*
* @param c JComponent that will display the string
* @param fm FontMetrics used to measure the String width
* @param firstChar Character to get the left side bearing for.
*/
public static int getLeftSideBearing(JComponent c, FontMetrics fm,
char firstChar) {
return getBearing(c, fm, firstChar, true);
}
/**
* Returns the right side bearing of the last character of string. The
* right side bearing is calculated from the passed in FontMetrics.
*
* @param c JComponent that will display the string
* @param fm FontMetrics used to measure the String width
* @param string String to get the right side bearing for.
*/
public static int getRightSideBearing(JComponent c, FontMetrics fm,
String string) {
if ((string == null) || (string.length() == 0)) {
return 0;
}
return getRightSideBearing(c, fm, string.charAt(string.length() - 1));
}
/**
* Returns the right side bearing of the specified character. The
* right side bearing is calculated from the passed in FontMetrics.
*
* @param c JComponent that will display the string
* @param fm FontMetrics used to measure the String width
* @param lastChar Character to get the right side bearing for.
*/
public static int getRightSideBearing(JComponent c, FontMetrics fm,
char lastChar) {
return getBearing(c, fm, lastChar, false);
}
/* Calculates the left and right side bearing for a character.
* Strongly caches bearings for STRONG_BEARING_CACHE_SIZE
* most recently used Fonts and softly caches as many as GC allows.
*/
private static int getBearing(JComponent comp, FontMetrics fm, char c,
boolean isLeftBearing) {
//jnode
if(true) return 1;
if (fm == null) {
if (comp == null) {
return 0;
} else {
fm = comp.getFontMetrics(comp.getFont());
}
}
synchronized (SwingUtilities2.class) {
BearingCacheEntry entry = null;
BearingCacheEntry searchKey = new BearingCacheEntry(fm);
// See if we already have an entry in the strong cache
for (BearingCacheEntry cacheEntry : strongBearingCache) {
if (searchKey.equals(cacheEntry)) {
entry = cacheEntry;
break;
}
}
// See if we already have an entry in the soft cache
if (entry == null) {
Iterator<SoftReference<BearingCacheEntry>> iter =
softBearingCache.iterator();
while (iter.hasNext()) {
BearingCacheEntry cacheEntry = iter.next().get();
if (cacheEntry == null) {
// Remove discarded soft reference from the cache
iter.remove();
continue;
}
if (searchKey.equals(cacheEntry)) {
entry = cacheEntry;
putEntryInStrongCache(entry);
break;
}
}
}
if (entry == null) {
// No entry, add it
entry = searchKey;
cacheEntry(entry);
}
return (isLeftBearing)
? entry.getLeftSideBearing(c)
: entry.getRightSideBearing(c);
}
}
private synchronized static void cacheEntry(BearingCacheEntry entry) {
// Move the oldest entry from the strong cache into the soft cache
BearingCacheEntry oldestEntry =
strongBearingCache[strongBearingCacheNextIndex];
if (oldestEntry != null) {
softBearingCache.add(new SoftReference<BearingCacheEntry>(oldestEntry));
}
// Put entry in the strong cache
putEntryInStrongCache(entry);
}
private synchronized static void putEntryInStrongCache(BearingCacheEntry entry) {
strongBearingCache[strongBearingCacheNextIndex] = entry;
strongBearingCacheNextIndex = (strongBearingCacheNextIndex + 1)
% STRONG_BEARING_CACHE_SIZE;
}
/**
* Returns the FontMetrics for the current Font of the passed
* in Graphics. This method is used when a Graphics
* is available, typically when painting. If a Graphics is not
* available the JComponent method of the same name should be used.
* <p>
* Callers should pass in a non-null JComponent, the exception
* to this is if a JComponent is not readily available at the time of
* painting.
* <p>
* This does not necessarily return the FontMetrics from the
* Graphics.
*
* @param c JComponent requesting FontMetrics, may be null
* @param g Graphics Graphics
*/
public static FontMetrics getFontMetrics(JComponent c, Graphics g) {
return getFontMetrics(c, g, g.getFont());
}
/**
* Returns the FontMetrics for the specified Font.
* This method is used when a Graphics is available, typically when
* painting. If a Graphics is not available the JComponent method of
* the same name should be used.
* <p>
* Callers should pass in a non-null JComonent, the exception
* to this is if a JComponent is not readily available at the time of
* painting.
* <p>
* This does not necessarily return the FontMetrics from the
* Graphics.
*
* @param c JComponent requesting FontMetrics, may be null
* @param c Graphics Graphics
* @param font Font to get FontMetrics for
*/
public static FontMetrics getFontMetrics(JComponent c, Graphics g,
Font font) {
if (c != null) {
// Note: We assume that we're using the FontMetrics
// from the widget to layout out text, otherwise we can get
// mismatches when printing.
return c.getFontMetrics(font);
}
return Toolkit.getDefaultToolkit().getFontMetrics(font);
}
/**
* Returns the width of the passed in String.
* If the passed String is <code>null</code>, returns zero.
*
* @param c JComponent that will display the string, may be null
* @param fm FontMetrics used to measure the String width
* @param string String to get the width of
*/
public static int stringWidth(JComponent c, FontMetrics fm, String string){
if (string == null || string.equals("")) {
return 0;
}
return fm.stringWidth(string);
}
/**
* Clips the passed in String to the space provided.
*
* @param c JComponent that will display the string, may be null
* @param fm FontMetrics used to measure the String width
* @param string String to display
* @param availTextWidth Amount of space that the string can be drawn in
* @return Clipped string that can fit in the provided space.
*/
public static String clipStringIfNecessary(JComponent c, FontMetrics fm,
String string,
int availTextWidth) {
if ((string == null) || (string.equals(""))) {
return "";
}
int textWidth = SwingUtilities2.stringWidth(c, fm, string);
if (textWidth > availTextWidth) {
return SwingUtilities2.clipString(c, fm, string, availTextWidth);
}
return string;
}
/**
* Clips the passed in String to the space provided. NOTE: this assumes
* the string does not fit in the available space.
*
* @param c JComponent that will display the string, may be null
* @param fm FontMetrics used to measure the String width
* @param string String to display
* @param availTextWidth Amount of space that the string can be drawn in
* @return Clipped string that can fit in the provided space.
*/
public static String clipString(JComponent c, FontMetrics fm,
String string, int availTextWidth) {
// c may be null here.
String clipString = "...";
int stringLength = string.length();
availTextWidth -= SwingUtilities2.stringWidth(c, fm, clipString);
if (availTextWidth <= 0) {
//can not fit any characters
return clipString;
}
boolean needsTextLayout = false;
synchronized (charsBufferLock) {
if (charsBuffer == null || charsBuffer.length < stringLength) {
charsBuffer = string.toCharArray();
} else {
string.getChars(0, stringLength, charsBuffer, 0);
}
needsTextLayout =
isComplexLayout(charsBuffer, 0, stringLength);
if (!needsTextLayout) {
int width = 0;
for (int nChars = 0; nChars < stringLength; nChars++) {
width += fm.charWidth(charsBuffer[nChars]);
if (width > availTextWidth) {
string = string.substring(0, nChars);
break;
}
}
}
}
if (needsTextLayout) {
FontRenderContext frc = getFontRenderContext(c, fm);
AttributedString aString = new AttributedString(string);
LineBreakMeasurer measurer =
new LineBreakMeasurer(aString.getIterator(), frc);
int nChars = measurer.nextOffset(availTextWidth);
string = string.substring(0, nChars);
}
return string + clipString;
}
/**
* Draws the string at the specified location.
*
* @param c JComponent that will display the string, may be null
* @param g Graphics to draw the text to
* @param text String to display
* @param x X coordinate to draw the text at
* @param y Y coordinate to draw the text at
*/
public static void drawString(JComponent c, Graphics g, String text,
int x, int y) {
// c may be null
// All non-editable widgets that draw strings call into this
// methods. By non-editable that means widgets like JLabel, JButton
// but NOT JTextComponents.
if ( text == null || text.length() <= 0 ) { //no need to paint empty strings
return;
}
if (isPrinting(g)) {
Graphics2D g2d = getGraphics2D(g);
if (g2d != null) {
/* The printed text must scale linearly with the UI.
* Calculate the width on screen, obtain a TextLayout with
* advances for the printer graphics FRC, and then justify
* it to fit in the screen width. This distributes the spacing
* more evenly than directly laying out to the screen advances.
*/
float screenWidth = (float)
g2d.getFont().getStringBounds(text, DEFAULT_FRC).getWidth();
TextLayout layout = new TextLayout(text, g2d.getFont(),
g2d.getFontRenderContext());
layout = layout.getJustifiedLayout(screenWidth);
/* Use alternate print color if specified */
Color col = g2d.getColor();
if (col instanceof PrintColorUIResource) {
g2d.setColor(((PrintColorUIResource)col).getPrintColor());
}
layout.draw(g2d, x, y);
g2d.setColor(col);
return;
}
}
// If we get here we're not printing
AATextInfo info = drawTextAntialiased(c);
if (info != null && (g instanceof Graphics2D)) {
Graphics2D g2 = (Graphics2D)g;
Object oldContrast = null;
Object oldAAValue = g2.getRenderingHint(KEY_TEXT_ANTIALIASING);
if (info.aaHint != oldAAValue) {
g2.setRenderingHint(KEY_TEXT_ANTIALIASING, info.aaHint);
} else {
oldAAValue = null;
}
if (info.lcdContrastHint != null) {
oldContrast = g2.getRenderingHint(KEY_TEXT_LCD_CONTRAST);
if (info.lcdContrastHint.equals(oldContrast)) {
oldContrast = null;
} else {
g2.setRenderingHint(KEY_TEXT_LCD_CONTRAST,
info.lcdContrastHint);
}
}
g.drawString(text, x, y);
if (oldAAValue != null) {
g2.setRenderingHint(KEY_TEXT_ANTIALIASING, oldAAValue);
}
if (oldContrast != null) {
g2.setRenderingHint(KEY_TEXT_LCD_CONTRAST, oldContrast);
}
}
else {
g.drawString(text, x, y);
}
}
/**
* Draws the string at the specified location underlining the specified
* character.
*
* @param c JComponent that will display the string, may be null
* @param g Graphics to draw the text to
* @param text String to display
* @param underlinedIndex Index of a character in the string to underline
* @param x X coordinate to draw the text at
* @param y Y coordinate to draw the text at
*/
public static void drawStringUnderlineCharAt(JComponent c,Graphics g,
String text, int underlinedIndex, int x,int y) {
if (text == null || text.length() <= 0) {
return;
}
SwingUtilities2.drawString(c, g, text, x, y);
int textLength = text.length();
if (underlinedIndex >= 0 && underlinedIndex < textLength ) {
int underlineRectY = y;
int underlineRectHeight = 1;
int underlineRectX = 0;
int underlineRectWidth = 0;
boolean isPrinting = isPrinting(g);
boolean needsTextLayout = isPrinting;
if (!needsTextLayout) {
synchronized (charsBufferLock) {
if (charsBuffer == null || charsBuffer.length < textLength) {
charsBuffer = text.toCharArray();
} else {
text.getChars(0, textLength, charsBuffer, 0);
}
needsTextLayout =
isComplexLayout(charsBuffer, 0, textLength);
}
}
if (!needsTextLayout) {
FontMetrics fm = g.getFontMetrics();
underlineRectX = x +
SwingUtilities2.stringWidth(c,fm,
text.substring(0,underlinedIndex));
underlineRectWidth = fm.charWidth(text.
charAt(underlinedIndex));
} else {
Graphics2D g2d = getGraphics2D(g);
if (g2d != null) {
TextLayout layout =
new TextLayout(text, g2d.getFont(),
g2d.getFontRenderContext());
if (isPrinting) {
float screenWidth = (float)g2d.getFont().
getStringBounds(text, DEFAULT_FRC).getWidth();
layout = layout.getJustifiedLayout(screenWidth);
}
TextHitInfo leading =
TextHitInfo.leading(underlinedIndex);
TextHitInfo trailing =
TextHitInfo.trailing(underlinedIndex);
Shape shape =
layout.getVisualHighlightShape(leading, trailing);
Rectangle rect = shape.getBounds();
underlineRectX = x + rect.x;
underlineRectWidth = rect.width;
}
}
g.fillRect(underlineRectX, underlineRectY + 1,
underlineRectWidth, underlineRectHeight);
}
}
/**
* A variation of locationToIndex() which only returns an index if the
* Point is within the actual bounds of a list item (not just in the cell)
* and if the JList has the "List.isFileList" client property set.
* Otherwise, this method returns -1.
* This is used to make WindowsL&F JFileChooser act like native dialogs.
*/
public static int loc2IndexFileList(JList list, Point point) {
int index = list.locationToIndex(point);
if (index != -1) {
Object bySize = list.getClientProperty("List.isFileList");
if (bySize instanceof Boolean && ((Boolean)bySize).booleanValue() &&
!pointIsInActualBounds(list, index, point)) {
index = -1;
}
}
return index;
}
/**
* Returns true if the given point is within the actual bounds of the
* JList item at index (not just inside the cell).
*/
private static boolean pointIsInActualBounds(JList list, int index,
Point point) {
ListCellRenderer renderer = list.getCellRenderer();
ListModel dataModel = list.getModel();
Object value = dataModel.getElementAt(index);
Component item = renderer.getListCellRendererComponent(list,
value, index, false, false);
Dimension itemSize = item.getPreferredSize();
Rectangle cellBounds = list.getCellBounds(index, index);
if (!item.getComponentOrientation().isLeftToRight()) {
cellBounds.x += (cellBounds.width - itemSize.width);
}
cellBounds.width = itemSize.width;
return cellBounds.contains(point);
}
/**
* Returns true if the given point is outside the preferredSize of the
* item at the given row of the table. (Column must be 0).
* Does not check the "Table.isFileList" property. That should be checked
* before calling this method.
* This is used to make WindowsL&F JFileChooser act like native dialogs.
*/
public static boolean pointOutsidePrefSize(JTable table, int row, int column, Point p) {
if (table.convertColumnIndexToModel(column) != 0 || row == -1) {
return true;
}
TableCellRenderer tcr = table.getCellRenderer(row, column);
Object value = table.getValueAt(row, column);
Component cell = tcr.getTableCellRendererComponent(table, value, false,
false, row, column);
Dimension itemSize = cell.getPreferredSize();
Rectangle cellBounds = table.getCellRect(row, column, false);
cellBounds.width = itemSize.width;
cellBounds.height = itemSize.height;
// See if coords are inside
// ASSUME: mouse x,y will never be < cell's x,y
assert (p.x >= cellBounds.x && p.y >= cellBounds.y);
if (p.x > cellBounds.x + cellBounds.width ||
p.y > cellBounds.y + cellBounds.height) {
return true;
}
return false;
}
/**
* Set the lead and anchor without affecting selection.
*/
public static void setLeadAnchorWithoutSelection(ListSelectionModel model,
int lead, int anchor) {
if (anchor == -1) {
anchor = lead;
}
if (lead == -1) {
model.setAnchorSelectionIndex(-1);
model.setLeadSelectionIndex(-1);
} else {
if (model.isSelectedIndex(lead)) {
model.addSelectionInterval(lead, lead);
} else {
model.removeSelectionInterval(lead, lead);
}
model.setAnchorSelectionIndex(anchor);
}
}
/**
* Ignore mouse events if the component is null, not enabled, the event
* is not associated with the left mouse button, or the event has been
* consumed.
*/
public static boolean shouldIgnore(MouseEvent me, JComponent c) {
return c == null || !c.isEnabled()
|| !SwingUtilities.isLeftMouseButton(me)
|| me.isConsumed();
}
/**
* Request focus on the given component if it doesn't already have it
* and <code>isRequestFocusEnabled()</code> returns true.
*/
public static void adjustFocus(JComponent c) {
if (!c.hasFocus() && c.isRequestFocusEnabled()) {
c.requestFocus();
}
}
/**
* The following draw functions have the same semantic as the
* Graphics methods with the same names.
*
* this is used for printing
*/
public static int drawChars(JComponent c, Graphics g,
char[] data,
int offset,
int length,
int x,
int y) {
if ( length <= 0 ) { //no need to paint empty strings
return x;
}
int nextX = x + getFontMetrics(c, g).charsWidth(data, offset, length);
if (isPrinting(g)) {
Graphics2D g2d = getGraphics2D(g);
if (g2d != null) {
FontRenderContext deviceFontRenderContext = g2d.
getFontRenderContext();
FontRenderContext frc = getFontRenderContext(c);
if (frc != null &&
!isFontRenderContextPrintCompatible
(deviceFontRenderContext, frc)) {
TextLayout layout =
new TextLayout(new String(data,offset,length),
g2d.getFont(),
deviceFontRenderContext);
float screenWidth = (float)g2d.getFont().
getStringBounds(data, offset, offset + length, frc).
getWidth();
layout = layout.getJustifiedLayout(screenWidth);
/* Use alternate print color if specified */
Color col = g2d.getColor();
if (col instanceof PrintColorUIResource) {
g2d.setColor(((PrintColorUIResource)col).getPrintColor());
}
layout.draw(g2d,x,y);
g2d.setColor(col);
return nextX;
}
}
}
// Assume we're not printing if we get here, or that we are invoked
// via Swing text printing which is laid out for the printer.
AATextInfo info = drawTextAntialiased(c);
if (info != null && (g instanceof Graphics2D)) {
Graphics2D g2 = (Graphics2D)g;
Object oldContrast = null;
Object oldAAValue = g2.getRenderingHint(KEY_TEXT_ANTIALIASING);
if (info.aaHint != null && info.aaHint != oldAAValue) {
g2.setRenderingHint(KEY_TEXT_ANTIALIASING, info.aaHint);
} else {
oldAAValue = null;
}
if (info.lcdContrastHint != null) {
oldContrast = g2.getRenderingHint(KEY_TEXT_LCD_CONTRAST);
if (info.lcdContrastHint.equals(oldContrast)) {
oldContrast = null;
} else {
g2.setRenderingHint(KEY_TEXT_LCD_CONTRAST,
info.lcdContrastHint);
}
}
g.drawChars(data, offset, length, x, y);
if (oldAAValue != null) {
g2.setRenderingHint(KEY_TEXT_ANTIALIASING, oldAAValue);
}
if (oldContrast != null) {
g2.setRenderingHint(KEY_TEXT_LCD_CONTRAST, oldContrast);
}
}
else {
g.drawChars(data, offset, length, x, y);
}
return nextX;
}
/*
* see documentation for drawChars
* returns the advance
*/
public static float drawString(JComponent c, Graphics g,
AttributedCharacterIterator iterator,
int x,
int y) {
float retVal;
boolean isPrinting = isPrinting(g);
Color col = g.getColor();
if (isPrinting) {
/* Use alternate print color if specified */
if (col instanceof PrintColorUIResource) {
g.setColor(((PrintColorUIResource)col).getPrintColor());
}
}
Graphics2D g2d = getGraphics2D(g);
if (g2d == null) {
g.drawString(iterator,x,y); //for the cases where advance
//matters it should not happen
retVal = x;
} else {
FontRenderContext frc;
if (isPrinting) {
frc = getFontRenderContext(c);
if (frc.isAntiAliased() || frc.usesFractionalMetrics()) {
frc = new FontRenderContext(frc.getTransform(), false, false);
}
} else if ((frc = getFRCProperty(c)) != null) {
/* frc = frc; ! */
} else {
frc = g2d.getFontRenderContext();
}
TextLayout layout = new TextLayout(iterator, frc);
if (isPrinting) {
FontRenderContext deviceFRC = g2d.getFontRenderContext();
if (!isFontRenderContextPrintCompatible(frc, deviceFRC)) {
float screenWidth = layout.getAdvance();
layout = new TextLayout(iterator, deviceFRC);
layout = layout.getJustifiedLayout(screenWidth);
}
}
layout.draw(g2d, x, y);
retVal = layout.getAdvance();
}
if (isPrinting) {
g.setColor(col);
}
return retVal;
}
/*
* Checks if two given FontRenderContexts are compatible for printing.
* We can't just use equals as we want to exclude from the comparison :
* + whether AA is set as irrelevant for printing and shouldn't affect
* printed metrics anyway
* + any translation component in the transform of either FRC, as it
* does not affect metrics.
* Compatible means no special handling needed for text painting
*/
private static boolean
isFontRenderContextPrintCompatible(FontRenderContext frc1,
FontRenderContext frc2) {
if (frc1 == frc2) {
return true;
}
if (frc1 == null || frc2 == null) { // not supposed to happen
return false;
}
if (frc1.getFractionalMetricsHint() !=
frc2.getFractionalMetricsHint()) {
return false;
}
/* If both are identity, return true */
if (!frc1.isTransformed() && !frc2.isTransformed()) {
return true;
}
/* That's the end of the cheap tests, need to get and compare
* the transform matrices. We don't care about the translation
* components, so return true if they are otherwise identical.
*/
double[] mat1 = new double[4];
double[] mat2 = new double[4];
frc1.getTransform().getMatrix(mat1);
frc2.getTransform().getMatrix(mat2);
return
mat1[0] == mat2[0] &&
mat1[1] == mat2[1] &&
mat1[2] == mat2[2] &&
mat1[3] == mat2[3];
}
/*
* Tries it best to get Graphics2D out of the given Graphics
* returns null if can not derive it.
*/
public static Graphics2D getGraphics2D(Graphics g) {
if (g instanceof Graphics2D) {
return (Graphics2D) g;
} else if (g instanceof ProxyPrintGraphics) {
return (Graphics2D)(((ProxyPrintGraphics)g).getGraphics());
} else {
return null;
}
}
/*
* Returns FontRenderContext associated with Component.
* FontRenderContext from Component.getFontMetrics is associated
* with the component.
*
* Uses Component.getFontMetrics to get the FontRenderContext from.
* see JComponent.getFontMetrics and TextLayoutStrategy.java
*/
public static FontRenderContext getFontRenderContext(Component c) {
assert c != null;
if (c == null) {
return DEFAULT_FRC;
} else {
return c.getFontMetrics(c.getFont()).getFontRenderContext();
}
}
/**
* A convenience method to get FontRenderContext.
* Returns the FontRenderContext for the passed in FontMetrics or
* for the passed in Component if FontMetrics is null
*/
private static FontRenderContext getFontRenderContext(Component c, FontMetrics fm) {
assert fm != null || c!= null;
return (fm != null) ? fm.getFontRenderContext()
: getFontRenderContext(c);
}
/*
* This method is to be used only for JComponent.getFontMetrics.
* In all other places to get FontMetrics we need to use
* JComponent.getFontMetrics.
*
*/
public static FontMetrics getFontMetrics(JComponent c, Font font) {
/*jnode
FontRenderContext frc = getFRCProperty(c);
if (frc == null) {
frc = DEFAULT_FRC;
}
return FontDesignMetrics.getMetrics(font, frc);
*/
return c.getToolkit().getFontMetrics(font);
}
/* Get any FontRenderContext associated with a JComponent
* - may return null
*/
private static FontRenderContext getFRCProperty(JComponent c) {
if (c != null) {
AATextInfo info =
(AATextInfo)c.getClientProperty(AA_TEXT_PROPERTY_KEY);
if (info != null) {
return info.frc;
}
}
return null;
}
/*
* returns true if the Graphics is print Graphics
* false otherwise
*/
static boolean isPrinting(Graphics g) {
return (g instanceof PrinterGraphics || g instanceof PrintGraphics);
}
/**
* Determines whether the SelectedTextColor should be used for painting text
* foreground for the specified highlight.
*
* Returns true only if the highlight painter for the specified highlight
* is the swing painter (whether inner class of javax.swing.text.DefaultHighlighter
* or com.sun.java.swing.plaf.windows.WindowsTextUI) and its background color
* is null or equals to the selection color of the text component.
*
* This is a hack for fixing both bugs 4761990 and 5003294
*/
public static boolean useSelectedTextColor(Highlighter.Highlight h, JTextComponent c) {
Highlighter.HighlightPainter painter = h.getPainter();
String painterClass = painter.getClass().getName();
if (painterClass.indexOf("javax.swing.text.DefaultHighlighter") != 0 &&
painterClass.indexOf("com.sun.java.swing.plaf.windows.WindowsTextUI") != 0) {
return false;
}
try {
DefaultHighlighter.DefaultHighlightPainter defPainter =
(DefaultHighlighter.DefaultHighlightPainter) painter;
if (defPainter.getColor() != null &&
!defPainter.getColor().equals(c.getSelectionColor())) {
return false;
}
} catch (ClassCastException e) {
return false;
}
return true;
}
/**
* BearingCacheEntry is used to cache left and right character bearings
* for a particular <code>Font</code> and <code>FontRenderContext</code>.
*/
private static class BearingCacheEntry {
private FontMetrics fontMetrics;
private Font font;
private FontRenderContext frc;
private Map<Character, Short> cache;
// Used for the creation of a GlyphVector
private static final char[] oneChar = new char[1];
public BearingCacheEntry(FontMetrics fontMetrics) {
this.fontMetrics = fontMetrics;
this.font = fontMetrics.getFont();
this.frc = fontMetrics.getFontRenderContext();
this.cache = new HashMap<Character, Short>();
assert (font != null && frc != null);
}
public int getLeftSideBearing(char aChar) {
Short bearing = cache.get(aChar);
if (bearing == null) {
bearing = calcBearing(aChar);
cache.put(aChar, bearing);
}
return ((0xFF00 & bearing) >>> 8) - 127;
}
public int getRightSideBearing(char aChar) {
Short bearing = cache.get(aChar);
if (bearing == null) {
bearing = calcBearing(aChar);
cache.put(aChar, bearing);
}
return (0xFF & bearing) - 127;
}
/* Calculates left and right side bearings for a character.
* Makes an assumption that bearing is a value between -127 and +127.
* Stores LSB and RSB as single two-byte number (short):
* LSB is the high byte, RSB is the low byte.
*/
private short calcBearing(char aChar) {
oneChar[0] = aChar;
GlyphVector gv = font.createGlyphVector(frc, oneChar);
Rectangle pixelBounds = gv.getGlyphPixelBounds(0, frc, 0f, 0f);
// Get bearings
int lsb = pixelBounds.x;
int rsb = pixelBounds.width - fontMetrics.charWidth(aChar);
/* HRGB/HBGR LCD glyph images will always have a pixel
* on the left and a pixel on the right
* used in colour fringe reduction.
* Text rendering positions this correctly but here
* we are using the glyph image to adjust that position
* so must account for it.
*/
if (lsb < 0) {
Object aaHint = frc.getAntiAliasingHint();
if (aaHint == VALUE_TEXT_ANTIALIAS_LCD_HRGB ||
aaHint == VALUE_TEXT_ANTIALIAS_LCD_HBGR) {
lsb++;
}
}
if (rsb > 0) {
Object aaHint = frc.getAntiAliasingHint();
if (aaHint == VALUE_TEXT_ANTIALIAS_LCD_HRGB ||
aaHint == VALUE_TEXT_ANTIALIAS_LCD_HBGR) {
rsb--;
}
}
// Make sure that LSB and RSB are valid (see 6472972)
if (lsb < -127 || lsb > 127) {
lsb = 0;
}
if (rsb < -127 || rsb > 127) {
rsb = 0;
}
int bearing = ((lsb + 127) << 8) + (rsb + 127);
return (short)bearing;
}
public boolean equals(Object entry) {
if (entry == this) {
return true;
}
if (!(entry instanceof BearingCacheEntry)) {
return false;
}
BearingCacheEntry oEntry = (BearingCacheEntry)entry;
return (font.equals(oEntry.font) &&
frc.equals(oEntry.frc));
}
public int hashCode() {
int result = 17;
if (font != null) {
result = 37 * result + font.hashCode();
}
if (frc != null) {
result = 37 * result + frc.hashCode();
}
return result;
}
}
/*
* here goes the fix for 4856343 [Problem with applet interaction
* with system selection clipboard]
*
* NOTE. In case isTrustedContext() no checking
* are to be performed
*/
/**
* checks the security permissions for accessing system clipboard
*
* for untrusted context (see isTrustedContext) checks the
* permissions for the current event being handled
*
*/
public static boolean canAccessSystemClipboard() {
boolean canAccess = false;
if (!GraphicsEnvironment.isHeadless()) {
SecurityManager sm = System.getSecurityManager();
if (sm == null) {
canAccess = true;
} else {
try {
sm.checkSystemClipboardAccess();
canAccess = true;
} catch (SecurityException e) {
}
if (canAccess && ! isTrustedContext()) {
canAccess = canCurrentEventAccessSystemClipboard(true);
}
}
}
return canAccess;
}
/**
* Returns true if EventQueue.getCurrentEvent() has the permissions to
* access the system clipboard
*/
public static boolean canCurrentEventAccessSystemClipboard() {
return isTrustedContext()
|| canCurrentEventAccessSystemClipboard(false);
}
/**
* Returns true if the given event has permissions to access the
* system clipboard
*
* @param e AWTEvent to check
*/
public static boolean canEventAccessSystemClipboard(AWTEvent e) {
return isTrustedContext()
|| canEventAccessSystemClipboard(e, false);
}
/**
* returns canAccessSystemClipboard field from InputEvent
*
* @param ie InputEvent to get the field from
*/
private static synchronized boolean inputEvent_canAccessSystemClipboard(InputEvent ie) {
if (inputEvent_CanAccessSystemClipboard_Field == null) {
inputEvent_CanAccessSystemClipboard_Field =
(Field)AccessController.doPrivileged(
new java.security.PrivilegedAction() {
public Object run() {
Field field = null;
try {
field = InputEvent.class.
getDeclaredField("canAccessSystemClipboard");
field.setAccessible(true);
return field;
} catch (SecurityException e) {
} catch (NoSuchFieldException e) {
}
return null;
}
});
}
if (inputEvent_CanAccessSystemClipboard_Field == null) {
return false;
}
boolean ret = false;
try {
ret = inputEvent_CanAccessSystemClipboard_Field.
getBoolean(ie);
} catch(IllegalAccessException e) {
}
return ret;
}
/**
* Returns true if the given event is corrent gesture for
* accessing clipboard
*
* @param ie InputEvent to check
*/
private static boolean isAccessClipboardGesture(InputEvent ie) {
boolean allowedGesture = false;
if (ie instanceof KeyEvent) { //we can validate only keyboard gestures
KeyEvent ke = (KeyEvent)ie;
int keyCode = ke.getKeyCode();
int keyModifiers = ke.getModifiers();
switch(keyCode) {
case KeyEvent.VK_C:
case KeyEvent.VK_V:
case KeyEvent.VK_X:
allowedGesture = (keyModifiers == InputEvent.CTRL_MASK);
break;
case KeyEvent.VK_INSERT:
allowedGesture = (keyModifiers == InputEvent.CTRL_MASK ||
keyModifiers == InputEvent.SHIFT_MASK);
break;
case KeyEvent.VK_COPY:
case KeyEvent.VK_PASTE:
case KeyEvent.VK_CUT:
allowedGesture = true;
break;
case KeyEvent.VK_DELETE:
allowedGesture = ( keyModifiers == InputEvent.SHIFT_MASK);
break;
}
}
return allowedGesture;
}
/**
* Returns true if e has the permissions to
* access the system clipboard and if it is allowed gesture (if
* checkGesture is true)
*
* @param e AWTEvent to check
* @param checkGesture boolean
*/
private static boolean canEventAccessSystemClipboard(AWTEvent e,
boolean checkGesture) {
if (EventQueue.isDispatchThread()) {
/*
* Checking event permissions makes sense only for event
* dispathing thread
*/
if (e instanceof InputEvent
&& (! checkGesture || isAccessClipboardGesture((InputEvent)e))) {
return inputEvent_canAccessSystemClipboard((InputEvent)e);
} else {
return false;
}
} else {
return true;
}
}
/**
* Returns true if EventQueue.getCurrentEvent() has the permissions to
* access the system clipboard and if it is allowed gesture (if
* checkGesture true)
*
* @param checkGesture boolean
*/
private static boolean canCurrentEventAccessSystemClipboard(boolean
checkGesture) {
AWTEvent event = EventQueue.getCurrentEvent();
return canEventAccessSystemClipboard(event, checkGesture);
}
/**
* see RFE 5012841 [Per AppContect security permissions] for the
* details
*
*/
private static boolean isTrustedContext() {
return (System.getSecurityManager() == null)
|| (AppContext.getAppContext().
get(UntrustedClipboardAccess) == null);
}
public static String displayPropertiesToCSS(Font font, Color fg) {
StringBuffer rule = new StringBuffer("body {");
if (font != null) {
rule.append(" font-family: ");
rule.append(font.getFamily());
rule.append(" ; ");
rule.append(" font-size: ");
rule.append(font.getSize());
rule.append("pt ;");
if (font.isBold()) {
rule.append(" font-weight: 700 ; ");
}
if (font.isItalic()) {
rule.append(" font-style: italic ; ");
}
}
if (fg != null) {
rule.append(" color: #");
if (fg.getRed() < 16) {
rule.append('0');
}
rule.append(Integer.toHexString(fg.getRed()));
if (fg.getGreen() < 16) {
rule.append('0');
}
rule.append(Integer.toHexString(fg.getGreen()));
if (fg.getBlue() < 16) {
rule.append('0');
}
rule.append(Integer.toHexString(fg.getBlue()));
rule.append(" ; ");
}
rule.append(" }");
return rule.toString();
}
/**
* Utility method that creates a <code>UIDefaults.LazyValue</code> that
* creates an <code>ImageIcon</code> <code>UIResource</code> for the
* specified image file name. The image is loaded using
* <code>getResourceAsStream</code>, starting with a call to that method
* on the base class parameter. If it cannot be found, searching will
* continue through the base class' inheritance hierarchy, up to and
* including <code>rootClass</code>.
*
* @param baseClass the first class to use in searching for the resource
* @param rootClass an ancestor of <code>baseClass</code> to finish the
* search at
* @param imageFile the name of the file to be found
* @return a lazy value that creates the <code>ImageIcon</code>
* <code>UIResource</code> for the image,
* or null if it cannot be found
*/
public static Object makeIcon(final Class<?> baseClass,
final Class<?> rootClass,
final String imageFile) {
return new UIDefaults.LazyValue() {
public Object createValue(UIDefaults table) {
/* Copy resource into a byte array. This is
* necessary because several browsers consider
* Class.getResource a security risk because it
* can be used to load additional classes.
* Class.getResourceAsStream just returns raw
* bytes, which we can convert to an image.
*/
byte[] buffer = (byte[])
java.security.AccessController.doPrivileged(
new java.security.PrivilegedAction() {
public Object run() {
try {
InputStream resource = null;
Class<?> srchClass = baseClass;
while (srchClass != null) {
resource = srchClass.getResourceAsStream(imageFile);
if (resource != null || srchClass == rootClass) {
break;
}
srchClass = srchClass.getSuperclass();
}
if (resource == null) {
return null;
}
BufferedInputStream in =
new BufferedInputStream(resource);
ByteArrayOutputStream out =
new ByteArrayOutputStream(1024);
byte[] buffer = new byte[1024];
int n;
while ((n = in.read(buffer)) > 0) {
out.write(buffer, 0, n);
}
in.close();
out.flush();
return out.toByteArray();
} catch (IOException ioe) {
System.err.println(ioe.toString());
}
return null;
}
});
if (buffer == null) {
return null;
}
if (buffer.length == 0) {
System.err.println("warning: " + imageFile +
" is zero-length");
return null;
}
return new ImageIconUIResource(buffer);
}
};
}
/* Used to help decide if AA text rendering should be used, so
* this local display test should be additionally qualified
* against whether we have XRender support on both ends of the wire,
* as with that support remote performance may be good enough to turn
* on by default. An additional complication there is XRender does not
* appear capable of performing gamma correction needed for LCD text.
*/
public static boolean isLocalDisplay() {
try {
// On Windows just return true. Permission to read os.name
// is granted to all code but wrapped in try to be safe.
if (OSInfo.getOSType() == OSInfo.OSType.WINDOWS) {
return true;
}
// Else probably Solaris or Linux in which case may be remote X11
Class x11Class = Class.forName("sun.awt.X11GraphicsEnvironment");
Method isDisplayLocalMethod = x11Class.getMethod(
"isDisplayLocal", new Class[0]);
return (Boolean)isDisplayLocalMethod.invoke(null, (Object[])null);
} catch (Throwable t) {
}
// If we get here we're most likely being run on some other O/S
// or we didn't properly detect Windows.
return true;
}
/**
* Returns an integer from the defaults table. If <code>key</code> does
* not map to a valid <code>Integer</code>, or can not be convered from
* a <code>String</code> to an integer, the value 0 is returned.
*
* @param key an <code>Object</code> specifying the int.
* @return the int
*/
public static int getUIDefaultsInt(Object key) {
return getUIDefaultsInt(key, 0);
}
/**
* Returns an integer from the defaults table that is appropriate
* for the given locale. If <code>key</code> does not map to a valid
* <code>Integer</code>, or can not be convered from a <code>String</code>
* to an integer, the value 0 is returned.
*
* @param key an <code>Object</code> specifying the int. Returned value
* is 0 if <code>key</code> is not available,
* @param l the <code>Locale</code> for which the int is desired
* @return the int
*/
public static int getUIDefaultsInt(Object key, Locale l) {
return getUIDefaultsInt(key, l, 0);
}
/**
* Returns an integer from the defaults table. If <code>key</code> does
* not map to a valid <code>Integer</code>, or can not be convered from
* a <code>String</code> to an integer, <code>default</code> is
* returned.
*
* @param key an <code>Object</code> specifying the int. Returned value
* is 0 if <code>key</code> is not available,
* @param defaultValue Returned value if <code>key</code> is not available,
* or is not an Integer
* @return the int
*/
public static int getUIDefaultsInt(Object key, int defaultValue) {
return getUIDefaultsInt(key, null, defaultValue);
}
/**
* Returns an integer from the defaults table that is appropriate
* for the given locale. If <code>key</code> does not map to a valid
* <code>Integer</code>, or can not be convered from a <code>String</code>
* to an integer, <code>default</code> is returned.
*
* @param key an <code>Object</code> specifying the int. Returned value
* is 0 if <code>key</code> is not available,
* @param l the <code>Locale</code> for which the int is desired
* @param defaultValue Returned value if <code>key</code> is not available,
* or is not an Integer
* @return the int
*/
public static int getUIDefaultsInt(Object key, Locale l, int defaultValue) {
Object value = UIManager.get(key, l);
if (value instanceof Integer) {
return ((Integer)value).intValue();
}
if (value instanceof String) {
try {
return Integer.parseInt((String)value);
} catch (NumberFormatException nfe) {}
}
return defaultValue;
}
// At this point we need this method here. But we assume that there
// will be a common method for this purpose in the future releases.
public static Component compositeRequestFocus(Component component) {
if (component instanceof Container) {
Container container = (Container)component;
if (container.isFocusCycleRoot()) {
FocusTraversalPolicy policy = container.getFocusTraversalPolicy();
Component comp = policy.getDefaultComponent(container);
if (comp!=null) {
comp.requestFocus();
return comp;
}
}
Container rootAncestor = container.getFocusCycleRootAncestor();
if (rootAncestor!=null) {
FocusTraversalPolicy policy = rootAncestor.getFocusTraversalPolicy();
Component comp = policy.getComponentAfter(rootAncestor, container);
if (comp!=null && SwingUtilities.isDescendingFrom(comp, container)) {
comp.requestFocus();
return comp;
}
}
}
if (component.isFocusable()) {
component.requestFocus();
return component;
}
return null;
}
/**
* Change focus to the visible component in {@code JTabbedPane}.
* This is not a general-purpose method and is here only to permit
* sharing code.
*/
public static boolean tabbedPaneChangeFocusTo(Component comp) {
if (comp != null) {
if (comp.isFocusTraversable()) {
SwingUtilities2.compositeRequestFocus(comp);
return true;
} else if (comp instanceof JComponent
&& ((JComponent)comp).requestDefaultFocus()) {
return true;
}
}
return false;
}
/**
* Submits a value-returning task for execution on the EDT and
* returns a Future representing the pending results of the task.
*
* @param task the task to submit
* @return a Future representing pending completion of the task
* @throws NullPointerException if the task is null
*/
public static <V> Future<V> submit(Callable<V> task) {
if (task == null) {
throw new NullPointerException();
}
FutureTask<V> future = new FutureTask<V>(task);
execute(future);
return future;
}
/**
* Submits a Runnable task for execution on the EDT and returns a
* Future representing that task.
*
* @param task the task to submit
* @param result the result to return upon successful completion
* @return a Future representing pending completion of the task,
* and whose <tt>get()</tt> method will return the given
* result value upon completion
* @throws NullPointerException if the task is null
*/
public static <V> Future<V> submit(Runnable task, V result) {
if (task == null) {
throw new NullPointerException();
}
FutureTask<V> future = new FutureTask<V>(task, result);
execute(future);
return future;
}
/**
* Sends a Runnable to the EDT for the execution.
*/
private static void execute(Runnable command) {
SwingUtilities.invokeLater(command);
}
/**
* Sets the {@code SKIP_CLICK_COUNT} client property on the component
* if it is an instance of {@code JTextComponent} with a
* {@code DefaultCaret}. This property, used for text components acting
* as editors in a table or tree, tells {@code DefaultCaret} how many
* clicks to skip before starting selection.
*/
public static void setSkipClickCount(Component comp, int count) {
if (comp instanceof JTextComponent
&& ((JTextComponent) comp).getCaret() instanceof DefaultCaret) {
((JTextComponent) comp).putClientProperty(SKIP_CLICK_COUNT, count);
}
}
/**
* Return the MouseEvent's click count, possibly reduced by the value of
* the component's {@code SKIP_CLICK_COUNT} client property. Clears
* the {@code SKIP_CLICK_COUNT} property if the mouse event's click count
* is 1. In order for clearing of the property to work correctly, there
* must be a mousePressed implementation on the caller with this
* call as the first line.
*/
public static int getAdjustedClickCount(JTextComponent comp, MouseEvent e) {
int cc = e.getClickCount();
if (cc == 1) {
comp.putClientProperty(SKIP_CLICK_COUNT, null);
} else {
Integer sub = (Integer) comp.getClientProperty(SKIP_CLICK_COUNT);
if (sub != null) {
return cc - sub;
}
}
return cc;
}
/**
* Used by the {@code liesIn} method to return which section
* the point lies in.
*
* @see #liesIn
*/
public enum Section {
/** The leading section */
LEADING,
/** The middle section */
MIDDLE,
/** The trailing section */
TRAILING
}
/**
* This method divides a rectangle into two or three sections along
* the specified axis and determines which section the given point
* lies in on that axis; used by drag and drop when calculating drop
* locations.
* <p>
* For two sections, the rectangle is divided equally and the method
* returns whether the point lies in {@code Section.LEADING} or
* {@code Section.TRAILING}. For horizontal divisions, the calculation
* respects component orientation.
* <p>
* For three sections, if the rectangle is greater than or equal to
* 30 pixels in length along the axis, the calculation gives 10 pixels
* to each of the leading and trailing sections and the remainder to the
* middle. For smaller sizes, the rectangle is divided equally into three
* sections.
* <p>
* Note: This method assumes that the point is within the bounds of
* the given rectangle on the specified axis. However, in cases where
* it isn't, the results still have meaning: {@code Section.MIDDLE}
* remains the same, {@code Section.LEADING} indicates that the point
* is in or somewhere before the leading section, and
* {@code Section.TRAILING} indicates that the point is in or somewhere
* after the trailing section.
*
* @param rect the rectangle
* @param p the point the check
* @param horizontal {@code true} to use the horizontal axis,
* or {@code false} for the vertical axis
* @param ltr {@code true} for left to right orientation,
* or {@code false} for right to left orientation;
* only used for horizontal calculations
* @param three {@code true} for three sections,
* or {@code false} for two
*
* @return the {@code Section} where the point lies
*
* @throws NullPointerException if {@code rect} or {@code p} are
* {@code null}
*/
private static Section liesIn(Rectangle rect, Point p, boolean horizontal,
boolean ltr, boolean three) {
/* beginning of the rectangle on the axis */
int p0;
/* point on the axis we're interested in */
int pComp;
/* length of the rectangle on the axis */
int length;
/* value of ltr if horizontal, else true */
boolean forward;
if (horizontal) {
p0 = rect.x;
pComp = p.x;
length = rect.width;
forward = ltr;
} else {
p0 = rect.y;
pComp = p.y;
length = rect.height;
forward = true;
}
if (three) {
int boundary = (length >= 30) ? 10 : length / 3;
if (pComp < p0 + boundary) {
return forward ? Section.LEADING : Section.TRAILING;
} else if (pComp >= p0 + length - boundary) {
return forward ? Section.TRAILING : Section.LEADING;
}
return Section.MIDDLE;
} else {
int middle = p0 + length / 2;
if (forward) {
return pComp >= middle ? Section.TRAILING : Section.LEADING;
} else {
return pComp < middle ? Section.TRAILING : Section.LEADING;
}
}
}
/**
* This method divides a rectangle into two or three sections along
* the horizontal axis and determines which section the given point
* lies in; used by drag and drop when calculating drop locations.
* <p>
* See the documentation for {@link #liesIn} for more information
* on how the section is calculated.
*
* @param rect the rectangle
* @param p the point the check
* @param ltr {@code true} for left to right orientation,
* or {@code false} for right to left orientation
* @param three {@code true} for three sections,
* or {@code false} for two
*
* @return the {@code Section} where the point lies
*
* @throws NullPointerException if {@code rect} or {@code p} are
* {@code null}
*/
public static Section liesInHorizontal(Rectangle rect, Point p,
boolean ltr, boolean three) {
return liesIn(rect, p, true, ltr, three);
}
/**
* This method divides a rectangle into two or three sections along
* the vertical axis and determines which section the given point
* lies in; used by drag and drop when calculating drop locations.
* <p>
* See the documentation for {@link #liesIn} for more information
* on how the section is calculated.
*
* @param rect the rectangle
* @param p the point the check
* @param three {@code true} for three sections,
* or {@code false} for two
*
* @return the {@code Section} where the point lies
*
* @throws NullPointerException if {@code rect} or {@code p} are
* {@code null}
*/
public static Section liesInVertical(Rectangle rect, Point p,
boolean three) {
return liesIn(rect, p, false, false, three);
}
}