author | darcy |
Wed, 02 Jul 2014 23:03:27 -0700 | |
changeset 25565 | ce603b34c98d |
parent 22574 | 7f8ce0c8c20a |
child 25761 | c408b10ef757 |
permissions | -rw-r--r-- |
/* * Copyright (c) 1997, 2014, Oracle and/or its affiliates. All rights reserved. * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. * * This code is free software; you can redistribute it and/or modify it * under the terms of the GNU General Public License version 2 only, as * published by the Free Software Foundation. Oracle designates this * particular file as subject to the "Classpath" exception as provided * by Oracle in the LICENSE file that accompanied this code. * * This code is distributed in the hope that it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License * version 2 for more details (a copy is included in the LICENSE file that * accompanied this code). * * You should have received a copy of the GNU General Public License version * 2 along with this work; if not, write to the Free Software Foundation, * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. * * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA * or visit www.oracle.com if you need additional information or have any * questions. */ package javax.swing.plaf.basic; import java.util.*; import java.awt.*; import java.awt.event.*; import java.awt.datatransfer.*; import java.awt.im.InputContext; import java.beans.*; import java.io.*; import javax.swing.*; import javax.swing.plaf.*; import javax.swing.text.*; import javax.swing.event.*; import javax.swing.border.Border; import javax.swing.plaf.UIResource; import javax.swing.plaf.synth.SynthUI; import sun.swing.DefaultLookup; import sun.awt.AppContext; import javax.swing.plaf.basic.DragRecognitionSupport.BeforeDrag; /** * <p> * Basis of a text components look-and-feel. This provides the * basic editor view and controller services that may be useful * when creating a look-and-feel for an extension of * <code>JTextComponent</code>. * <p> * Most state is held in the associated <code>JTextComponent</code> * as bound properties, and the UI installs default values for the * various properties. This default will install something for * all of the properties. Typically, a LAF implementation will * do more however. At a minimum, a LAF would generally install * key bindings. * <p> * This class also provides some concurrency support if the * <code>Document</code> associated with the JTextComponent is a subclass of * <code>AbstractDocument</code>. Access to the View (or View hierarchy) is * serialized between any thread mutating the model and the Swing * event thread (which is expected to render, do model/view coordinate * translation, etc). <em>Any access to the root view should first * acquire a read-lock on the AbstractDocument and release that lock * in a finally block.</em> * <p> * An important method to define is the {@link #getPropertyPrefix} method * which is used as the basis of the keys used to fetch defaults * from the UIManager. The string should reflect the type of * TextUI (eg. TextField, TextArea, etc) without the particular * LAF part of the name (eg Metal, Motif, etc). * <p> * To build a view of the model, one of the following strategies * can be employed. * <ol> * <li> * One strategy is to simply redefine the * ViewFactory interface in the UI. By default, this UI itself acts * as the factory for View implementations. This is useful * for simple factories. To do this reimplement the * {@link #create} method. * <li> * A common strategy for creating more complex types of documents * is to have the EditorKit implementation return a factory. Since * the EditorKit ties all of the pieces necessary to maintain a type * of document, the factory is typically an important part of that * and should be produced by the EditorKit implementation. * </ol> * <p> * <strong>Warning:</strong> * Serialized objects of this class will not be compatible with * future Swing releases. The current serialization support is * appropriate for short term storage or RMI between applications running * the same version of Swing. As of 1.4, support for long term storage * of all JavaBeans™ * has been added to the <code>java.beans</code> package. * Please see {@link java.beans.XMLEncoder}. * * @author Timothy Prinzing * @author Shannon Hickey (drag and drop) */ @SuppressWarnings("serial") // Same-version serialization only public abstract class BasicTextUI extends TextUI implements ViewFactory { /** * Creates a new UI. */ public BasicTextUI() { painted = false; } /** * Creates the object to use for a caret. By default an * instance of BasicCaret is created. This method * can be redefined to provide something else that implements * the InputPosition interface or a subclass of JCaret. * * @return the caret object */ protected Caret createCaret() { return new BasicCaret(); } /** * Creates the object to use for adding highlights. By default * an instance of BasicHighlighter is created. This method * can be redefined to provide something else that implements * the Highlighter interface or a subclass of DefaultHighlighter. * * @return the highlighter */ protected Highlighter createHighlighter() { return new BasicHighlighter(); } /** * Fetches the name of the keymap that will be installed/used * by default for this UI. This is implemented to create a * name based upon the classname. The name is the the name * of the class with the package prefix removed. * * @return the name */ protected String getKeymapName() { String nm = getClass().getName(); int index = nm.lastIndexOf('.'); if (index >= 0) { nm = nm.substring(index+1, nm.length()); } return nm; } /** * Creates the keymap to use for the text component, and installs * any necessary bindings into it. By default, the keymap is * shared between all instances of this type of TextUI. The * keymap has the name defined by the getKeymapName method. If the * keymap is not found, then DEFAULT_KEYMAP from JTextComponent is used. * <p> * The set of bindings used to create the keymap is fetched * from the UIManager using a key formed by combining the * {@link #getPropertyPrefix} method * and the string <code>.keyBindings</code>. The type is expected * to be <code>JTextComponent.KeyBinding[]</code>. * * @return the keymap * @see #getKeymapName * @see javax.swing.text.JTextComponent */ protected Keymap createKeymap() { String nm = getKeymapName(); Keymap map = JTextComponent.getKeymap(nm); if (map == null) { Keymap parent = JTextComponent.getKeymap(JTextComponent.DEFAULT_KEYMAP); map = JTextComponent.addKeymap(nm, parent); String prefix = getPropertyPrefix(); Object o = DefaultLookup.get(editor, this, prefix + ".keyBindings"); if ((o != null) && (o instanceof JTextComponent.KeyBinding[])) { JTextComponent.KeyBinding[] bindings = (JTextComponent.KeyBinding[]) o; JTextComponent.loadKeymap(map, bindings, getComponent().getActions()); } } return map; } /** * This method gets called when a bound property is changed * on the associated JTextComponent. This is a hook * which UI implementations may change to reflect how the * UI displays bound properties of JTextComponent subclasses. * This is implemented to do nothing (i.e. the response to * properties in JTextComponent itself are handled prior * to calling this method). * * This implementation updates the background of the text * component if the editable and/or enabled state changes. * * @param evt the property change event */ protected void propertyChange(PropertyChangeEvent evt) { if (evt.getPropertyName().equals("editable") || evt.getPropertyName().equals("enabled")) { updateBackground((JTextComponent)evt.getSource()); } } /** * Updates the background of the text component based on whether the * text component is editable and/or enabled. * * @param c the JTextComponent that needs its background color updated */ private void updateBackground(JTextComponent c) { // This is a temporary workaround. // This code does not correctly deal with Synth (Synth doesn't use // properties like this), nor does it deal with the situation where // the developer grabs the color from a JLabel and sets it as // the background for a JTextArea in all look and feels. The problem // scenario results if the Color obtained for the Label and TextArea // is ==, which is the case for the windows look and feel. // Until an appropriate solution is found, the code is being // reverted to what it was before the original fix. if (this instanceof SynthUI || (c instanceof JTextArea)) { return; } Color background = c.getBackground(); if (background instanceof UIResource) { String prefix = getPropertyPrefix(); Color disabledBG = DefaultLookup.getColor(c, this, prefix + ".disabledBackground", null); Color inactiveBG = DefaultLookup.getColor(c, this, prefix + ".inactiveBackground", null); Color bg = DefaultLookup.getColor(c, this, prefix + ".background", null); /* In an ideal situation, the following check would not be necessary * and we would replace the color any time the previous color was a * UIResouce. However, it turns out that there is existing code that * uses the following inadvisable pattern to turn a text area into * what appears to be a multi-line label: * * JLabel label = new JLabel(); * JTextArea area = new JTextArea(); * area.setBackground(label.getBackground()); * area.setEditable(false); * * JLabel's default background is a UIResource. As such, just * checking for UIResource would have us always changing the * background away from what the developer wanted. * * Therefore, for JTextArea/JEditorPane, we'll additionally check * that the color we're about to replace matches one that was * installed by us from the UIDefaults. */ if ((c instanceof JTextArea || c instanceof JEditorPane) && background != disabledBG && background != inactiveBG && background != bg) { return; } Color newColor = null; if (!c.isEnabled()) { newColor = disabledBG; } if (newColor == null && !c.isEditable()) { newColor = inactiveBG; } if (newColor == null) { newColor = bg; } if (newColor != null && newColor != background) { c.setBackground(newColor); } } } /** * Gets the name used as a key to look up properties through the * UIManager. This is used as a prefix to all the standard * text properties. * * @return the name */ protected abstract String getPropertyPrefix(); /** * Initializes component properties, such as font, foreground, * background, caret color, selection color, selected text color, * disabled text color, and border color. The font, foreground, and * background properties are only set if their current value is either null * or a UIResource, other properties are set if the current * value is null. * * @see #uninstallDefaults * @see #installUI */ protected void installDefaults() { String prefix = getPropertyPrefix(); Font f = editor.getFont(); if ((f == null) || (f instanceof UIResource)) { editor.setFont(UIManager.getFont(prefix + ".font")); } Color bg = editor.getBackground(); if ((bg == null) || (bg instanceof UIResource)) { editor.setBackground(UIManager.getColor(prefix + ".background")); } Color fg = editor.getForeground(); if ((fg == null) || (fg instanceof UIResource)) { editor.setForeground(UIManager.getColor(prefix + ".foreground")); } Color color = editor.getCaretColor(); if ((color == null) || (color instanceof UIResource)) { editor.setCaretColor(UIManager.getColor(prefix + ".caretForeground")); } Color s = editor.getSelectionColor(); if ((s == null) || (s instanceof UIResource)) { editor.setSelectionColor(UIManager.getColor(prefix + ".selectionBackground")); } Color sfg = editor.getSelectedTextColor(); if ((sfg == null) || (sfg instanceof UIResource)) { editor.setSelectedTextColor(UIManager.getColor(prefix + ".selectionForeground")); } Color dfg = editor.getDisabledTextColor(); if ((dfg == null) || (dfg instanceof UIResource)) { editor.setDisabledTextColor(UIManager.getColor(prefix + ".inactiveForeground")); } Border b = editor.getBorder(); if ((b == null) || (b instanceof UIResource)) { editor.setBorder(UIManager.getBorder(prefix + ".border")); } Insets margin = editor.getMargin(); if (margin == null || margin instanceof UIResource) { editor.setMargin(UIManager.getInsets(prefix + ".margin")); } updateCursor(); } private void installDefaults2() { editor.addMouseListener(dragListener); editor.addMouseMotionListener(dragListener); String prefix = getPropertyPrefix(); Caret caret = editor.getCaret(); if (caret == null || caret instanceof UIResource) { caret = createCaret(); editor.setCaret(caret); int rate = DefaultLookup.getInt(getComponent(), this, prefix + ".caretBlinkRate", 500); caret.setBlinkRate(rate); } Highlighter highlighter = editor.getHighlighter(); if (highlighter == null || highlighter instanceof UIResource) { editor.setHighlighter(createHighlighter()); } TransferHandler th = editor.getTransferHandler(); if (th == null || th instanceof UIResource) { editor.setTransferHandler(getTransferHandler()); } } /** * Sets the component properties that have not been explicitly overridden * to {@code null}. A property is considered overridden if its current * value is not a {@code UIResource}. * * @see #installDefaults * @see #uninstallUI */ protected void uninstallDefaults() { editor.removeMouseListener(dragListener); editor.removeMouseMotionListener(dragListener); if (editor.getCaretColor() instanceof UIResource) { editor.setCaretColor(null); } if (editor.getSelectionColor() instanceof UIResource) { editor.setSelectionColor(null); } if (editor.getDisabledTextColor() instanceof UIResource) { editor.setDisabledTextColor(null); } if (editor.getSelectedTextColor() instanceof UIResource) { editor.setSelectedTextColor(null); } if (editor.getBorder() instanceof UIResource) { editor.setBorder(null); } if (editor.getMargin() instanceof UIResource) { editor.setMargin(null); } if (editor.getCaret() instanceof UIResource) { editor.setCaret(null); } if (editor.getHighlighter() instanceof UIResource) { editor.setHighlighter(null); } if (editor.getTransferHandler() instanceof UIResource) { editor.setTransferHandler(null); } if (editor.getCursor() instanceof UIResource) { editor.setCursor(null); } } /** * Installs listeners for the UI. */ protected void installListeners() { } /** * Uninstalls listeners for the UI. */ protected void uninstallListeners() { } protected void installKeyboardActions() { // backward compatibility support... keymaps for the UI // are now installed in the more friendly input map. editor.setKeymap(createKeymap()); InputMap km = getInputMap(); if (km != null) { SwingUtilities.replaceUIInputMap(editor, JComponent.WHEN_FOCUSED, km); } ActionMap map = getActionMap(); if (map != null) { SwingUtilities.replaceUIActionMap(editor, map); } updateFocusAcceleratorBinding(false); } /** * Get the InputMap to use for the UI. */ InputMap getInputMap() { InputMap map = new InputMapUIResource(); InputMap shared = (InputMap)DefaultLookup.get(editor, this, getPropertyPrefix() + ".focusInputMap"); if (shared != null) { map.setParent(shared); } return map; } /** * Invoked when the focus accelerator changes, this will update the * key bindings as necessary. */ void updateFocusAcceleratorBinding(boolean changed) { char accelerator = editor.getFocusAccelerator(); if (changed || accelerator != '\0') { InputMap km = SwingUtilities.getUIInputMap (editor, JComponent.WHEN_IN_FOCUSED_WINDOW); if (km == null && accelerator != '\0') { km = new ComponentInputMapUIResource(editor); SwingUtilities.replaceUIInputMap(editor, JComponent. WHEN_IN_FOCUSED_WINDOW, km); ActionMap am = getActionMap(); SwingUtilities.replaceUIActionMap(editor, am); } if (km != null) { km.clear(); if (accelerator != '\0') { km.put(KeyStroke.getKeyStroke(accelerator, BasicLookAndFeel.getFocusAcceleratorKeyMask()), "requestFocus"); } } } } /** * Invoked when editable property is changed. * * removing 'TAB' and 'SHIFT-TAB' from traversalKeysSet in case * editor is editable * adding 'TAB' and 'SHIFT-TAB' to traversalKeysSet in case * editor is non editable */ void updateFocusTraversalKeys() { /* * Fix for 4514331 Non-editable JTextArea and similar * should allow Tab to keyboard - accessibility */ EditorKit editorKit = getEditorKit(editor); if ( editorKit != null && editorKit instanceof DefaultEditorKit) { Set<AWTKeyStroke> storedForwardTraversalKeys = editor. getFocusTraversalKeys(KeyboardFocusManager. FORWARD_TRAVERSAL_KEYS); Set<AWTKeyStroke> storedBackwardTraversalKeys = editor. getFocusTraversalKeys(KeyboardFocusManager. BACKWARD_TRAVERSAL_KEYS); Set<AWTKeyStroke> forwardTraversalKeys = new HashSet<AWTKeyStroke>(storedForwardTraversalKeys); Set<AWTKeyStroke> backwardTraversalKeys = new HashSet<AWTKeyStroke>(storedBackwardTraversalKeys); if (editor.isEditable()) { forwardTraversalKeys. remove(KeyStroke.getKeyStroke(KeyEvent.VK_TAB, 0)); backwardTraversalKeys. remove(KeyStroke.getKeyStroke(KeyEvent.VK_TAB, InputEvent.SHIFT_MASK)); } else { forwardTraversalKeys.add(KeyStroke. getKeyStroke(KeyEvent.VK_TAB, 0)); backwardTraversalKeys. add(KeyStroke. getKeyStroke(KeyEvent.VK_TAB, InputEvent.SHIFT_MASK)); } LookAndFeel.installProperty(editor, "focusTraversalKeysForward", forwardTraversalKeys); LookAndFeel.installProperty(editor, "focusTraversalKeysBackward", backwardTraversalKeys); } } /** * As needed updates cursor for the target editor. */ private void updateCursor() { if ((! editor.isCursorSet()) || editor.getCursor() instanceof UIResource) { Cursor cursor = (editor.isEditable()) ? textCursor : null; editor.setCursor(cursor); } } /** * Returns the <code>TransferHandler</code> that will be installed if * their isn't one installed on the <code>JTextComponent</code>. */ TransferHandler getTransferHandler() { return defaultTransferHandler; } /** * Fetch an action map to use. */ ActionMap getActionMap() { String mapName = getPropertyPrefix() + ".actionMap"; ActionMap map = (ActionMap)UIManager.get(mapName); if (map == null) { map = createActionMap(); if (map != null) { UIManager.getLookAndFeelDefaults().put(mapName, map); } } ActionMap componentMap = new ActionMapUIResource(); componentMap.put("requestFocus", new FocusAction()); /* * fix for bug 4515750 * JTextField & non-editable JTextArea bind return key - default btn not accessible * * Wrap the return action so that it is only enabled when the * component is editable. This allows the default button to be * processed when the text component has focus and isn't editable. * */ if (getEditorKit(editor) instanceof DefaultEditorKit) { if (map != null) { Object obj = map.get(DefaultEditorKit.insertBreakAction); if (obj != null && obj instanceof DefaultEditorKit.InsertBreakAction) { Action action = new TextActionWrapper((TextAction)obj); componentMap.put(action.getValue(Action.NAME),action); } } } if (map != null) { componentMap.setParent(map); } return componentMap; } /** * Create a default action map. This is basically the * set of actions found exported by the component. */ ActionMap createActionMap() { ActionMap map = new ActionMapUIResource(); Action[] actions = editor.getActions(); //System.out.println("building map for UI: " + getPropertyPrefix()); int n = actions.length; for (int i = 0; i < n; i++) { Action a = actions[i]; map.put(a.getValue(Action.NAME), a); //System.out.println(" " + a.getValue(Action.NAME)); } map.put(TransferHandler.getCutAction().getValue(Action.NAME), TransferHandler.getCutAction()); map.put(TransferHandler.getCopyAction().getValue(Action.NAME), TransferHandler.getCopyAction()); map.put(TransferHandler.getPasteAction().getValue(Action.NAME), TransferHandler.getPasteAction()); return map; } protected void uninstallKeyboardActions() { editor.setKeymap(null); SwingUtilities.replaceUIInputMap(editor, JComponent. WHEN_IN_FOCUSED_WINDOW, null); SwingUtilities.replaceUIActionMap(editor, null); } /** * Paints a background for the view. This will only be * called if isOpaque() on the associated component is * true. The default is to paint the background color * of the component. * * @param g the graphics context */ protected void paintBackground(Graphics g) { g.setColor(editor.getBackground()); g.fillRect(0, 0, editor.getWidth(), editor.getHeight()); } /** * Fetches the text component associated with this * UI implementation. This will be null until * the ui has been installed. * * @return the editor component */ protected final JTextComponent getComponent() { return editor; } /** * Flags model changes. * This is called whenever the model has changed. * It is implemented to rebuild the view hierarchy * to represent the default root element of the * associated model. */ protected void modelChanged() { // create a view hierarchy ViewFactory f = rootView.getViewFactory(); Document doc = editor.getDocument(); Element elem = doc.getDefaultRootElement(); setView(f.create(elem)); } /** * Sets the current root of the view hierarchy and calls invalidate(). * If there were any child components, they will be removed (i.e. * there are assumed to have come from components embedded in views). * * @param v the root view */ protected final void setView(View v) { rootView.setView(v); painted = false; editor.revalidate(); editor.repaint(); } /** * Paints the interface safely with a guarantee that * the model won't change from the view of this thread. * This does the following things, rendering from * back to front. * <ol> * <li> * If the component is marked as opaque, the background * is painted in the current background color of the * component. * <li> * The highlights (if any) are painted. * <li> * The view hierarchy is painted. * <li> * The caret is painted. * </ol> * * @param g the graphics context */ protected void paintSafely(Graphics g) { painted = true; Highlighter highlighter = editor.getHighlighter(); Caret caret = editor.getCaret(); // paint the background if (editor.isOpaque()) { paintBackground(g); } // paint the highlights if (highlighter != null) { highlighter.paint(g); } // paint the view hierarchy Rectangle alloc = getVisibleEditorRect(); if (alloc != null) { rootView.paint(g, alloc); } // paint the caret if (caret != null) { caret.paint(g); } if (dropCaret != null) { dropCaret.paint(g); } } // --- ComponentUI methods -------------------------------------------- /** * Installs the UI for a component. This does the following * things. * <ol> * <li> * Sets the associated component to opaque if the opaque property * has not already been set by the client program. This will cause the * component's background color to be painted. * <li> * Installs the default caret and highlighter into the * associated component. These properties are only set if their * current value is either {@code null} or an instance of * {@link UIResource}. * <li> * Attaches to the editor and model. If there is no * model, a default one is created. * <li> * Creates the view factory and the view hierarchy used * to represent the model. * </ol> * * @param c the editor component * @see ComponentUI#installUI */ public void installUI(JComponent c) { if (c instanceof JTextComponent) { editor = (JTextComponent) c; // common case is background painted... this can // easily be changed by subclasses or from outside // of the component. LookAndFeel.installProperty(editor, "opaque", Boolean.TRUE); LookAndFeel.installProperty(editor, "autoscrolls", Boolean.TRUE); // install defaults installDefaults(); installDefaults2(); // attach to the model and editor editor.addPropertyChangeListener(updateHandler); Document doc = editor.getDocument(); if (doc == null) { // no model, create a default one. This will // fire a notification to the updateHandler // which takes care of the rest. editor.setDocument(getEditorKit(editor).createDefaultDocument()); } else { doc.addDocumentListener(updateHandler); modelChanged(); } // install keymap installListeners(); installKeyboardActions(); LayoutManager oldLayout = editor.getLayout(); if ((oldLayout == null) || (oldLayout instanceof UIResource)) { // by default, use default LayoutManger implementation that // will position the components associated with a View object. editor.setLayout(updateHandler); } updateBackground(editor); } else { throw new Error("TextUI needs JTextComponent"); } } /** * Deinstalls the UI for a component. This removes the listeners, * uninstalls the highlighter, removes views, and nulls out the keymap. * * @param c the editor component * @see ComponentUI#uninstallUI */ public void uninstallUI(JComponent c) { // detach from the model editor.removePropertyChangeListener(updateHandler); editor.getDocument().removeDocumentListener(updateHandler); // view part painted = false; uninstallDefaults(); rootView.setView(null); c.removeAll(); LayoutManager lm = c.getLayout(); if (lm instanceof UIResource) { c.setLayout(null); } // controller part uninstallKeyboardActions(); uninstallListeners(); editor = null; } /** * Superclass paints background in an uncontrollable way * (i.e. one might want an image tiled into the background). * To prevent this from happening twice, this method is * reimplemented to simply paint. * <p> * <em>NOTE:</em> NOTE: Superclass is also not thread-safe in its * rendering of the background, although that is not an issue with the * default rendering. */ public void update(Graphics g, JComponent c) { paint(g, c); } /** * Paints the interface. This is routed to the * paintSafely method under the guarantee that * the model won't change from the view of this thread * while it's rendering (if the associated model is * derived from AbstractDocument). This enables the * model to potentially be updated asynchronously. * * @param g the graphics context * @param c the editor component */ public final void paint(Graphics g, JComponent c) { if ((rootView.getViewCount() > 0) && (rootView.getView(0) != null)) { Document doc = editor.getDocument(); if (doc instanceof AbstractDocument) { ((AbstractDocument)doc).readLock(); } try { paintSafely(g); } finally { if (doc instanceof AbstractDocument) { ((AbstractDocument)doc).readUnlock(); } } } } /** * Gets the preferred size for the editor component. If the component * has been given a size prior to receiving this request, it will * set the size of the view hierarchy to reflect the size of the component * before requesting the preferred size of the view hierarchy. This * allows formatted views to format to the current component size before * answering the request. Other views don't care about currently formatted * size and give the same answer either way. * * @param c the editor component * @return the size */ public Dimension getPreferredSize(JComponent c) { Document doc = editor.getDocument(); Insets i = c.getInsets(); Dimension d = c.getSize(); if (doc instanceof AbstractDocument) { ((AbstractDocument)doc).readLock(); } try { if ((d.width > (i.left + i.right)) && (d.height > (i.top + i.bottom))) { rootView.setSize(d.width - i.left - i.right, d.height - i.top - i.bottom); } else if (d.width == 0 && d.height == 0) { // Probably haven't been layed out yet, force some sort of // initial sizing. rootView.setSize(Integer.MAX_VALUE, Integer.MAX_VALUE); } d.width = (int) Math.min((long) rootView.getPreferredSpan(View.X_AXIS) + (long) i.left + (long) i.right, Integer.MAX_VALUE); d.height = (int) Math.min((long) rootView.getPreferredSpan(View.Y_AXIS) + (long) i.top + (long) i.bottom, Integer.MAX_VALUE); } finally { if (doc instanceof AbstractDocument) { ((AbstractDocument)doc).readUnlock(); } } return d; } /** * Gets the minimum size for the editor component. * * @param c the editor component * @return the size */ public Dimension getMinimumSize(JComponent c) { Document doc = editor.getDocument(); Insets i = c.getInsets(); Dimension d = new Dimension(); if (doc instanceof AbstractDocument) { ((AbstractDocument)doc).readLock(); } try { d.width = (int) rootView.getMinimumSpan(View.X_AXIS) + i.left + i.right; d.height = (int) rootView.getMinimumSpan(View.Y_AXIS) + i.top + i.bottom; } finally { if (doc instanceof AbstractDocument) { ((AbstractDocument)doc).readUnlock(); } } return d; } /** * Gets the maximum size for the editor component. * * @param c the editor component * @return the size */ public Dimension getMaximumSize(JComponent c) { Document doc = editor.getDocument(); Insets i = c.getInsets(); Dimension d = new Dimension(); if (doc instanceof AbstractDocument) { ((AbstractDocument)doc).readLock(); } try { d.width = (int) Math.min((long) rootView.getMaximumSpan(View.X_AXIS) + (long) i.left + (long) i.right, Integer.MAX_VALUE); d.height = (int) Math.min((long) rootView.getMaximumSpan(View.Y_AXIS) + (long) i.top + (long) i.bottom, Integer.MAX_VALUE); } finally { if (doc instanceof AbstractDocument) { ((AbstractDocument)doc).readUnlock(); } } return d; } // ---- TextUI methods ------------------------------------------- /** * Gets the allocation to give the root View. Due * to an unfortunate set of historical events this * method is inappropriately named. The Rectangle * returned has nothing to do with visibility. * The component must have a non-zero positive size for * this translation to be computed. * * @return the bounding box for the root view */ protected Rectangle getVisibleEditorRect() { Rectangle alloc = editor.getBounds(); if ((alloc.width > 0) && (alloc.height > 0)) { alloc.x = alloc.y = 0; Insets insets = editor.getInsets(); alloc.x += insets.left; alloc.y += insets.top; alloc.width -= insets.left + insets.right; alloc.height -= insets.top + insets.bottom; return alloc; } return null; } /** * Converts the given location in the model to a place in * the view coordinate system. * The component must have a non-zero positive size for * this translation to be computed. * * @param tc the text component for which this UI is installed * @param pos the local location in the model to translate >= 0 * @return the coordinates as a rectangle, null if the model is not painted * @exception BadLocationException if the given position does not * represent a valid location in the associated document * @see TextUI#modelToView */ public Rectangle modelToView(JTextComponent tc, int pos) throws BadLocationException { return modelToView(tc, pos, Position.Bias.Forward); } /** * Converts the given location in the model to a place in * the view coordinate system. * The component must have a non-zero positive size for * this translation to be computed. * * @param tc the text component for which this UI is installed * @param pos the local location in the model to translate >= 0 * @return the coordinates as a rectangle, null if the model is not painted * @exception BadLocationException if the given position does not * represent a valid location in the associated document * @see TextUI#modelToView */ public Rectangle modelToView(JTextComponent tc, int pos, Position.Bias bias) throws BadLocationException { Document doc = editor.getDocument(); if (doc instanceof AbstractDocument) { ((AbstractDocument)doc).readLock(); } try { Rectangle alloc = getVisibleEditorRect(); if (alloc != null) { rootView.setSize(alloc.width, alloc.height); Shape s = rootView.modelToView(pos, alloc, bias); if (s != null) { return s.getBounds(); } } } finally { if (doc instanceof AbstractDocument) { ((AbstractDocument)doc).readUnlock(); } } return null; } /** * Converts the given place in the view coordinate system * to the nearest representative location in the model. * The component must have a non-zero positive size for * this translation to be computed. * * @param tc the text component for which this UI is installed * @param pt the location in the view to translate. This * should be in the same coordinate system as the mouse events. * @return the offset from the start of the document >= 0, * -1 if not painted * @see TextUI#viewToModel */ public int viewToModel(JTextComponent tc, Point pt) { return viewToModel(tc, pt, discardBias); } /** * Converts the given place in the view coordinate system * to the nearest representative location in the model. * The component must have a non-zero positive size for * this translation to be computed. * * @param tc the text component for which this UI is installed * @param pt the location in the view to translate. This * should be in the same coordinate system as the mouse events. * @return the offset from the start of the document >= 0, * -1 if the component doesn't yet have a positive size. * @see TextUI#viewToModel */ public int viewToModel(JTextComponent tc, Point pt, Position.Bias[] biasReturn) { int offs = -1; Document doc = editor.getDocument(); if (doc instanceof AbstractDocument) { ((AbstractDocument)doc).readLock(); } try { Rectangle alloc = getVisibleEditorRect(); if (alloc != null) { rootView.setSize(alloc.width, alloc.height); offs = rootView.viewToModel(pt.x, pt.y, alloc, biasReturn); } } finally { if (doc instanceof AbstractDocument) { ((AbstractDocument)doc).readUnlock(); } } return offs; } /** * {@inheritDoc} */ public int getNextVisualPositionFrom(JTextComponent t, int pos, Position.Bias b, int direction, Position.Bias[] biasRet) throws BadLocationException{ Document doc = editor.getDocument(); if (doc instanceof AbstractDocument) { ((AbstractDocument)doc).readLock(); } try { if (painted) { Rectangle alloc = getVisibleEditorRect(); if (alloc != null) { rootView.setSize(alloc.width, alloc.height); } return rootView.getNextVisualPositionFrom(pos, b, alloc, direction, biasRet); } } finally { if (doc instanceof AbstractDocument) { ((AbstractDocument)doc).readUnlock(); } } return -1; } /** * Causes the portion of the view responsible for the * given part of the model to be repainted. Does nothing if * the view is not currently painted. * * @param tc the text component for which this UI is installed * @param p0 the beginning of the range >= 0 * @param p1 the end of the range >= p0 * @see TextUI#damageRange */ public void damageRange(JTextComponent tc, int p0, int p1) { damageRange(tc, p0, p1, Position.Bias.Forward, Position.Bias.Backward); } /** * Causes the portion of the view responsible for the * given part of the model to be repainted. * * @param p0 the beginning of the range >= 0 * @param p1 the end of the range >= p0 */ public void damageRange(JTextComponent t, int p0, int p1, Position.Bias p0Bias, Position.Bias p1Bias) { if (painted) { Rectangle alloc = getVisibleEditorRect(); if (alloc != null) { Document doc = t.getDocument(); if (doc instanceof AbstractDocument) { ((AbstractDocument)doc).readLock(); } try { rootView.setSize(alloc.width, alloc.height); Shape toDamage = rootView.modelToView(p0, p0Bias, p1, p1Bias, alloc); Rectangle rect = (toDamage instanceof Rectangle) ? (Rectangle)toDamage : toDamage.getBounds(); editor.repaint(rect.x, rect.y, rect.width, rect.height); } catch (BadLocationException e) { } finally { if (doc instanceof AbstractDocument) { ((AbstractDocument)doc).readUnlock(); } } } } } /** * Fetches the EditorKit for the UI. * * @param tc the text component for which this UI is installed * @return the editor capabilities * @see TextUI#getEditorKit */ public EditorKit getEditorKit(JTextComponent tc) { return defaultKit; } /** * Fetches a View with the allocation of the associated * text component (i.e. the root of the hierarchy) that * can be traversed to determine how the model is being * represented spatially. * <p> * <font style="color: red;"><b>NOTE:</b>The View hierarchy can * be traversed from the root view, and other things * can be done as well. Things done in this way cannot * be protected like simple method calls through the TextUI. * Therefore, proper operation in the presence of concurrency * must be arranged by any logic that calls this method! * </font> * * @param tc the text component for which this UI is installed * @return the view * @see TextUI#getRootView */ public View getRootView(JTextComponent tc) { return rootView; } /** * Returns the string to be used as the tooltip at the passed in location. * This forwards the method onto the root View. * * @see javax.swing.text.JTextComponent#getToolTipText * @see javax.swing.text.View#getToolTipText * @since 1.4 */ public String getToolTipText(JTextComponent t, Point pt) { if (!painted) { return null; } Document doc = editor.getDocument(); String tt = null; Rectangle alloc = getVisibleEditorRect(); if (alloc != null) { if (doc instanceof AbstractDocument) { ((AbstractDocument)doc).readLock(); } try { tt = rootView.getToolTipText(pt.x, pt.y, alloc); } finally { if (doc instanceof AbstractDocument) { ((AbstractDocument)doc).readUnlock(); } } } return tt; } // --- ViewFactory methods ------------------------------ /** * Creates a view for an element. * If a subclass wishes to directly implement the factory * producing the view(s), it should reimplement this * method. By default it simply returns null indicating * it is unable to represent the element. * * @param elem the element * @return the view */ public View create(Element elem) { return null; } /** * Creates a view for an element. * If a subclass wishes to directly implement the factory * producing the view(s), it should reimplement this * method. By default it simply returns null indicating * it is unable to represent the part of the element. * * @param elem the element * @param p0 the starting offset >= 0 * @param p1 the ending offset >= p0 * @return the view */ public View create(Element elem, int p0, int p1) { return null; } public static class BasicCaret extends DefaultCaret implements UIResource {} public static class BasicHighlighter extends DefaultHighlighter implements UIResource {} static class BasicCursor extends Cursor implements UIResource { BasicCursor(int type) { super(type); } BasicCursor(String name) { super(name); } } private static BasicCursor textCursor = new BasicCursor(Cursor.TEXT_CURSOR); // ----- member variables --------------------------------------- private static final EditorKit defaultKit = new DefaultEditorKit(); transient JTextComponent editor; transient boolean painted; transient RootView rootView = new RootView(); transient UpdateHandler updateHandler = new UpdateHandler(); private static final TransferHandler defaultTransferHandler = new TextTransferHandler(); private final DragListener dragListener = getDragListener(); private static final Position.Bias[] discardBias = new Position.Bias[1]; private DefaultCaret dropCaret; /** * Root view that acts as a gateway between the component * and the View hierarchy. */ class RootView extends View { RootView() { super(null); } void setView(View v) { View oldView = view; view = null; if (oldView != null) { // get rid of back reference so that the old // hierarchy can be garbage collected. oldView.setParent(null); } if (v != null) { v.setParent(this); } view = v; } /** * Fetches the attributes to use when rendering. At the root * level there are no attributes. If an attribute is resolved * up the view hierarchy this is the end of the line. */ public AttributeSet getAttributes() { return null; } /** * Determines the preferred span for this view along an axis. * * @param axis may be either X_AXIS or Y_AXIS * @return the span the view would like to be rendered into. * Typically the view is told to render into the span * that is returned, although there is no guarantee. * The parent may choose to resize or break the view. */ public float getPreferredSpan(int axis) { if (view != null) { return view.getPreferredSpan(axis); } return 10; } /** * Determines the minimum span for this view along an axis. * * @param axis may be either X_AXIS or Y_AXIS * @return the span the view would like to be rendered into. * Typically the view is told to render into the span * that is returned, although there is no guarantee. * The parent may choose to resize or break the view. */ public float getMinimumSpan(int axis) { if (view != null) { return view.getMinimumSpan(axis); } return 10; } /** * Determines the maximum span for this view along an axis. * * @param axis may be either X_AXIS or Y_AXIS * @return the span the view would like to be rendered into. * Typically the view is told to render into the span * that is returned, although there is no guarantee. * The parent may choose to resize or break the view. */ public float getMaximumSpan(int axis) { return Integer.MAX_VALUE; } /** * Specifies that a preference has changed. * Child views can call this on the parent to indicate that * the preference has changed. The root view routes this to * invalidate on the hosting component. * <p> * This can be called on a different thread from the * event dispatching thread and is basically unsafe to * propagate into the component. To make this safe, * the operation is transferred over to the event dispatching * thread for completion. It is a design goal that all view * methods be safe to call without concern for concurrency, * and this behavior helps make that true. * * @param child the child view * @param width true if the width preference has changed * @param height true if the height preference has changed */ public void preferenceChanged(View child, boolean width, boolean height) { editor.revalidate(); } /** * Determines the desired alignment for this view along an axis. * * @param axis may be either X_AXIS or Y_AXIS * @return the desired alignment, where 0.0 indicates the origin * and 1.0 the full span away from the origin */ public float getAlignment(int axis) { if (view != null) { return view.getAlignment(axis); } return 0; } /** * Renders the view. * * @param g the graphics context * @param allocation the region to render into */ public void paint(Graphics g, Shape allocation) { if (view != null) { Rectangle alloc = (allocation instanceof Rectangle) ? (Rectangle)allocation : allocation.getBounds(); setSize(alloc.width, alloc.height); view.paint(g, allocation); } } /** * Sets the view parent. * * @param parent the parent view */ public void setParent(View parent) { throw new Error("Can't set parent on root view"); } /** * Returns the number of views in this view. Since * this view simply wraps the root of the view hierarchy * it has exactly one child. * * @return the number of views * @see #getView */ public int getViewCount() { return 1; } /** * Gets the n-th view in this container. * * @param n the number of the view to get * @return the view */ public View getView(int n) { return view; } /** * Returns the child view index representing the given position in * the model. This is implemented to return the index of the only * child. * * @param pos the position >= 0 * @return index of the view representing the given position, or * -1 if no view represents that position * @since 1.3 */ public int getViewIndex(int pos, Position.Bias b) { return 0; } /** * Fetches the allocation for the given child view. * This enables finding out where various views * are located, without assuming the views store * their location. This returns the given allocation * since this view simply acts as a gateway between * the view hierarchy and the associated component. * * @param index the index of the child * @param a the allocation to this view. * @return the allocation to the child */ public Shape getChildAllocation(int index, Shape a) { return a; } /** * Provides a mapping from the document model coordinate space * to the coordinate space of the view mapped to it. * * @param pos the position to convert * @param a the allocated region to render into * @return the bounding box of the given position */ public Shape modelToView(int pos, Shape a, Position.Bias b) throws BadLocationException { if (view != null) { return view.modelToView(pos, a, b); } return null; } /** * Provides a mapping from the document model coordinate space * to the coordinate space of the view mapped to it. * * @param p0 the position to convert >= 0 * @param b0 the bias toward the previous character or the * next character represented by p0, in case the * position is a boundary of two views. * @param p1 the position to convert >= 0 * @param b1 the bias toward the previous character or the * next character represented by p1, in case the * position is a boundary of two views. * @param a the allocated region to render into * @return the bounding box of the given position is returned * @exception BadLocationException if the given position does * not represent a valid location in the associated document * @exception IllegalArgumentException for an invalid bias argument * @see View#viewToModel */ public Shape modelToView(int p0, Position.Bias b0, int p1, Position.Bias b1, Shape a) throws BadLocationException { if (view != null) { return view.modelToView(p0, b0, p1, b1, a); } return null; } /** * Provides a mapping from the view coordinate space to the logical * coordinate space of the model. * * @param x x coordinate of the view location to convert * @param y y coordinate of the view location to convert * @param a the allocated region to render into * @return the location within the model that best represents the * given point in the view */ public int viewToModel(float x, float y, Shape a, Position.Bias[] bias) { if (view != null) { int retValue = view.viewToModel(x, y, a, bias); return retValue; } return -1; } /** * Provides a way to determine the next visually represented model * location that one might place a caret. Some views may not be visible, * they might not be in the same order found in the model, or they just * might not allow access to some of the locations in the model. * This method enables specifying a position to convert * within the range of >=0. If the value is -1, a position * will be calculated automatically. If the value < -1, * the {@code BadLocationException} will be thrown. * * @param pos the position to convert >= 0 * @param a the allocated region to render into * @param direction the direction from the current position that can * be thought of as the arrow keys typically found on a keyboard. * This may be SwingConstants.WEST, SwingConstants.EAST, * SwingConstants.NORTH, or SwingConstants.SOUTH. * @return the location within the model that best represents the next * location visual position. * @exception BadLocationException the given position is not a valid * position within the document * @exception IllegalArgumentException for an invalid direction */ public int getNextVisualPositionFrom(int pos, Position.Bias b, Shape a, int direction, Position.Bias[] biasRet) throws BadLocationException { if (pos < -1) { throw new BadLocationException("invalid position", pos); } if( view != null ) { int nextPos = view.getNextVisualPositionFrom(pos, b, a, direction, biasRet); if(nextPos != -1) { pos = nextPos; } else { biasRet[0] = b; } } return pos; } /** * Gives notification that something was inserted into the document * in a location that this view is responsible for. * * @param e the change information from the associated document * @param a the current allocation of the view * @param f the factory to use to rebuild if the view has children */ public void insertUpdate(DocumentEvent e, Shape a, ViewFactory f) { if (view != null) { view.insertUpdate(e, a, f); } } /** * Gives notification that something was removed from the document * in a location that this view is responsible for. * * @param e the change information from the associated document * @param a the current allocation of the view * @param f the factory to use to rebuild if the view has children */ public void removeUpdate(DocumentEvent e, Shape a, ViewFactory f) { if (view != null) { view.removeUpdate(e, a, f); } } /** * Gives notification from the document that attributes were changed * in a location that this view is responsible for. * * @param e the change information from the associated document * @param a the current allocation of the view * @param f the factory to use to rebuild if the view has children */ public void changedUpdate(DocumentEvent e, Shape a, ViewFactory f) { if (view != null) { view.changedUpdate(e, a, f); } } /** * Returns the document model underlying the view. * * @return the model */ public Document getDocument() { return editor.getDocument(); } /** * Returns the starting offset into the model for this view. * * @return the starting offset */ public int getStartOffset() { if (view != null) { return view.getStartOffset(); } return getElement().getStartOffset(); } /** * Returns the ending offset into the model for this view. * * @return the ending offset */ public int getEndOffset() { if (view != null) { return view.getEndOffset(); } return getElement().getEndOffset(); } /** * Gets the element that this view is mapped to. * * @return the view */ public Element getElement() { if (view != null) { return view.getElement(); } return editor.getDocument().getDefaultRootElement(); } /** * Breaks this view on the given axis at the given length. * * @param axis may be either X_AXIS or Y_AXIS * @param len specifies where a break is desired in the span * @param the current allocation of the view * @return the fragment of the view that represents the given span * if the view can be broken, otherwise null */ public View breakView(int axis, float len, Shape a) { throw new Error("Can't break root view"); } /** * Determines the resizability of the view along the * given axis. A value of 0 or less is not resizable. * * @param axis may be either X_AXIS or Y_AXIS * @return the weight */ public int getResizeWeight(int axis) { if (view != null) { return view.getResizeWeight(axis); } return 0; } /** * Sets the view size. * * @param width the width * @param height the height */ public void setSize(float width, float height) { if (view != null) { view.setSize(width, height); } } /** * Fetches the container hosting the view. This is useful for * things like scheduling a repaint, finding out the host * components font, etc. The default implementation * of this is to forward the query to the parent view. * * @return the container */ public Container getContainer() { return editor; } /** * Fetches the factory to be used for building the * various view fragments that make up the view that * represents the model. This is what determines * how the model will be represented. This is implemented * to fetch the factory provided by the associated * EditorKit unless that is null, in which case this * simply returns the BasicTextUI itself which allows * subclasses to implement a simple factory directly without * creating extra objects. * * @return the factory */ public ViewFactory getViewFactory() { EditorKit kit = getEditorKit(editor); ViewFactory f = kit.getViewFactory(); if (f != null) { return f; } return BasicTextUI.this; } private View view; } /** * Handles updates from various places. If the model is changed, * this class unregisters as a listener to the old model and * registers with the new model. If the document model changes, * the change is forwarded to the root view. If the focus * accelerator changes, a new keystroke is registered to request * focus. */ class UpdateHandler implements PropertyChangeListener, DocumentListener, LayoutManager2, UIResource { // --- PropertyChangeListener methods ----------------------- /** * This method gets called when a bound property is changed. * We are looking for document changes on the editor. */ public final void propertyChange(PropertyChangeEvent evt) { Object oldValue = evt.getOldValue(); Object newValue = evt.getNewValue(); String propertyName = evt.getPropertyName(); if ((oldValue instanceof Document) || (newValue instanceof Document)) { if (oldValue != null) { ((Document)oldValue).removeDocumentListener(this); i18nView = false; } if (newValue != null) { ((Document)newValue).addDocumentListener(this); if ("document" == propertyName) { setView(null); BasicTextUI.this.propertyChange(evt); modelChanged(); return; } } modelChanged(); } if ("focusAccelerator" == propertyName) { updateFocusAcceleratorBinding(true); } else if ("componentOrientation" == propertyName) { // Changes in ComponentOrientation require the views to be // rebuilt. modelChanged(); } else if ("font" == propertyName) { modelChanged(); } else if ("dropLocation" == propertyName) { dropIndexChanged(); } else if ("editable" == propertyName) { updateCursor(); modelChanged(); } BasicTextUI.this.propertyChange(evt); } private void dropIndexChanged() { if (editor.getDropMode() == DropMode.USE_SELECTION) { return; } JTextComponent.DropLocation dropLocation = editor.getDropLocation(); if (dropLocation == null) { if (dropCaret != null) { dropCaret.deinstall(editor); editor.repaint(dropCaret); dropCaret = null; } } else { if (dropCaret == null) { dropCaret = new BasicCaret(); dropCaret.install(editor); dropCaret.setVisible(true); } dropCaret.setDot(dropLocation.getIndex(), dropLocation.getBias()); } } // --- DocumentListener methods ----------------------- /** * The insert notification. Gets sent to the root of the view structure * that represents the portion of the model being represented by the * editor. The factory is added as an argument to the update so that * the views can update themselves in a dynamic (not hardcoded) way. * * @param e The change notification from the currently associated * document. * @see DocumentListener#insertUpdate */ public final void insertUpdate(DocumentEvent e) { Document doc = e.getDocument(); Object o = doc.getProperty("i18n"); if (o instanceof Boolean) { Boolean i18nFlag = (Boolean) o; if (i18nFlag.booleanValue() != i18nView) { // i18n flag changed, rebuild the view i18nView = i18nFlag.booleanValue(); modelChanged(); return; } } // normal insert update Rectangle alloc = (painted) ? getVisibleEditorRect() : null; rootView.insertUpdate(e, alloc, rootView.getViewFactory()); } /** * The remove notification. Gets sent to the root of the view structure * that represents the portion of the model being represented by the * editor. The factory is added as an argument to the update so that * the views can update themselves in a dynamic (not hardcoded) way. * * @param e The change notification from the currently associated * document. * @see DocumentListener#removeUpdate */ public final void removeUpdate(DocumentEvent e) { Rectangle alloc = (painted) ? getVisibleEditorRect() : null; rootView.removeUpdate(e, alloc, rootView.getViewFactory()); } /** * The change notification. Gets sent to the root of the view structure * that represents the portion of the model being represented by the * editor. The factory is added as an argument to the update so that * the views can update themselves in a dynamic (not hardcoded) way. * * @param e The change notification from the currently associated * document. * @see DocumentListener#changedUpdate(DocumentEvent) */ public final void changedUpdate(DocumentEvent e) { Rectangle alloc = (painted) ? getVisibleEditorRect() : null; rootView.changedUpdate(e, alloc, rootView.getViewFactory()); } // --- LayoutManager2 methods -------------------------------- /** * Adds the specified component with the specified name to * the layout. * @param name the component name * @param comp the component to be added */ public void addLayoutComponent(String name, Component comp) { // not supported } /** * Removes the specified component from the layout. * @param comp the component to be removed */ public void removeLayoutComponent(Component comp) { if (constraints != null) { // remove the constraint record constraints.remove(comp); } } /** * Calculates the preferred size dimensions for the specified * panel given the components in the specified parent container. * @param parent the component to be laid out * * @see #minimumLayoutSize */ public Dimension preferredLayoutSize(Container parent) { // should not be called (JComponent uses UI instead) return null; } /** * Calculates the minimum size dimensions for the specified * panel given the components in the specified parent container. * @param parent the component to be laid out * @see #preferredLayoutSize */ public Dimension minimumLayoutSize(Container parent) { // should not be called (JComponent uses UI instead) return null; } /** * Lays out the container in the specified panel. This is * implemented to position all components that were added * with a View object as a constraint. The current allocation * of the associated View is used as the location of the * component. * <p> * A read-lock is acquired on the document to prevent the * view tree from being modified while the layout process * is active. * * @param parent the component which needs to be laid out */ public void layoutContainer(Container parent) { if ((constraints != null) && (! constraints.isEmpty())) { Rectangle alloc = getVisibleEditorRect(); if (alloc != null) { Document doc = editor.getDocument(); if (doc instanceof AbstractDocument) { ((AbstractDocument)doc).readLock(); } try { rootView.setSize(alloc.width, alloc.height); Enumeration<Component> components = constraints.keys(); while (components.hasMoreElements()) { Component comp = components.nextElement(); View v = (View) constraints.get(comp); Shape ca = calculateViewPosition(alloc, v); if (ca != null) { Rectangle compAlloc = (ca instanceof Rectangle) ? (Rectangle) ca : ca.getBounds(); comp.setBounds(compAlloc); } } } finally { if (doc instanceof AbstractDocument) { ((AbstractDocument)doc).readUnlock(); } } } } } /** * Find the Shape representing the given view. */ Shape calculateViewPosition(Shape alloc, View v) { int pos = v.getStartOffset(); View child = null; for (View parent = rootView; (parent != null) && (parent != v); parent = child) { int index = parent.getViewIndex(pos, Position.Bias.Forward); alloc = parent.getChildAllocation(index, alloc); child = parent.getView(index); } return (child != null) ? alloc : null; } /** * Adds the specified component to the layout, using the specified * constraint object. We only store those components that were added * with a constraint that is of type View. * * @param comp the component to be added * @param constraint where/how the component is added to the layout. */ public void addLayoutComponent(Component comp, Object constraint) { if (constraint instanceof View) { if (constraints == null) { constraints = new Hashtable<Component, Object>(7); } constraints.put(comp, constraint); } } /** * Returns the maximum size of this component. * @see java.awt.Component#getMinimumSize() * @see java.awt.Component#getPreferredSize() * @see LayoutManager */ public Dimension maximumLayoutSize(Container target) { // should not be called (JComponent uses UI instead) return null; } /** * Returns the alignment along the x axis. This specifies how * the component would like to be aligned relative to other * components. The value should be a number between 0 and 1 * where 0 represents alignment along the origin, 1 is aligned * the furthest away from the origin, 0.5 is centered, etc. */ public float getLayoutAlignmentX(Container target) { return 0.5f; } /** * Returns the alignment along the y axis. This specifies how * the component would like to be aligned relative to other * components. The value should be a number between 0 and 1 * where 0 represents alignment along the origin, 1 is aligned * the furthest away from the origin, 0.5 is centered, etc. */ public float getLayoutAlignmentY(Container target) { return 0.5f; } /** * Invalidates the layout, indicating that if the layout manager * has cached information it should be discarded. */ public void invalidateLayout(Container target) { } /** * The "layout constraints" for the LayoutManager2 implementation. * These are View objects for those components that are represented * by a View in the View tree. */ private Hashtable<Component, Object> constraints; private boolean i18nView = false; } /** * Wrapper for text actions to return isEnabled false in case editor is non editable */ class TextActionWrapper extends TextAction { public TextActionWrapper(TextAction action) { super((String)action.getValue(Action.NAME)); this.action = action; } /** * The operation to perform when this action is triggered. * * @param e the action event */ public void actionPerformed(ActionEvent e) { action.actionPerformed(e); } public boolean isEnabled() { return (editor == null || editor.isEditable()) ? action.isEnabled() : false; } TextAction action = null; } /** * Registered in the ActionMap. */ class FocusAction extends AbstractAction { public void actionPerformed(ActionEvent e) { editor.requestFocus(); } public boolean isEnabled() { return editor.isEditable(); } } private static DragListener getDragListener() { synchronized(DragListener.class) { DragListener listener = (DragListener)AppContext.getAppContext(). get(DragListener.class); if (listener == null) { listener = new DragListener(); AppContext.getAppContext().put(DragListener.class, listener); } return listener; } } /** * Listens for mouse events for the purposes of detecting drag gestures. * BasicTextUI will maintain one of these per AppContext. */ static class DragListener extends MouseInputAdapter implements BeforeDrag { private boolean dragStarted; public void dragStarting(MouseEvent me) { dragStarted = true; } public void mousePressed(MouseEvent e) { JTextComponent c = (JTextComponent)e.getSource(); if (c.getDragEnabled()) { dragStarted = false; if (isDragPossible(e) && DragRecognitionSupport.mousePressed(e)) { e.consume(); } } } public void mouseReleased(MouseEvent e) { JTextComponent c = (JTextComponent)e.getSource(); if (c.getDragEnabled()) { if (dragStarted) { e.consume(); } DragRecognitionSupport.mouseReleased(e); } } public void mouseDragged(MouseEvent e) { JTextComponent c = (JTextComponent)e.getSource(); if (c.getDragEnabled()) { if (dragStarted || DragRecognitionSupport.mouseDragged(e, this)) { e.consume(); } } } /** * Determines if the following are true: * <ul> * <li>the component is enabled * <li>the press event is located over a selection * </ul> */ protected boolean isDragPossible(MouseEvent e) { JTextComponent c = (JTextComponent)e.getSource(); if (c.isEnabled()) { Caret caret = c.getCaret(); int dot = caret.getDot(); int mark = caret.getMark(); if (dot != mark) { Point p = new Point(e.getX(), e.getY()); int pos = c.viewToModel(p); int p0 = Math.min(dot, mark); int p1 = Math.max(dot, mark); if ((pos >= p0) && (pos < p1)) { return true; } } } return false; } } static class TextTransferHandler extends TransferHandler implements UIResource { private JTextComponent exportComp; private boolean shouldRemove; private int p0; private int p1; /** * Whether or not this is a drop using * <code>DropMode.INSERT</code>. */ private boolean modeBetween = false; /** * Whether or not this is a drop. */ private boolean isDrop = false; /** * The drop action. */ private int dropAction = MOVE; /** * The drop bias. */ private Position.Bias dropBias; /** * Try to find a flavor that can be used to import a Transferable. * The set of usable flavors are tried in the following order: * <ol> * <li>First, an attempt is made to find a flavor matching the content type * of the EditorKit for the component. * <li>Second, an attempt to find a text/plain flavor is made. * <li>Third, an attempt to find a flavor representing a String reference * in the same VM is made. * <li>Lastly, DataFlavor.stringFlavor is searched for. * </ol> */ protected DataFlavor getImportFlavor(DataFlavor[] flavors, JTextComponent c) { DataFlavor plainFlavor = null; DataFlavor refFlavor = null; DataFlavor stringFlavor = null; if (c instanceof JEditorPane) { for (int i = 0; i < flavors.length; i++) { String mime = flavors[i].getMimeType(); if (mime.startsWith(((JEditorPane)c).getEditorKit().getContentType())) { return flavors[i]; } else if (plainFlavor == null && mime.startsWith("text/plain")) { plainFlavor = flavors[i]; } else if (refFlavor == null && mime.startsWith("application/x-java-jvm-local-objectref") && flavors[i].getRepresentationClass() == java.lang.String.class) { refFlavor = flavors[i]; } else if (stringFlavor == null && flavors[i].equals(DataFlavor.stringFlavor)) { stringFlavor = flavors[i]; } } if (plainFlavor != null) { return plainFlavor; } else if (refFlavor != null) { return refFlavor; } else if (stringFlavor != null) { return stringFlavor; } return null; } for (int i = 0; i < flavors.length; i++) { String mime = flavors[i].getMimeType(); if (mime.startsWith("text/plain")) { return flavors[i]; } else if (refFlavor == null && mime.startsWith("application/x-java-jvm-local-objectref") && flavors[i].getRepresentationClass() == java.lang.String.class) { refFlavor = flavors[i]; } else if (stringFlavor == null && flavors[i].equals(DataFlavor.stringFlavor)) { stringFlavor = flavors[i]; } } if (refFlavor != null) { return refFlavor; } else if (stringFlavor != null) { return stringFlavor; } return null; } /** * Import the given stream data into the text component. */ protected void handleReaderImport(Reader in, JTextComponent c, boolean useRead) throws BadLocationException, IOException { if (useRead) { int startPosition = c.getSelectionStart(); int endPosition = c.getSelectionEnd(); int length = endPosition - startPosition; EditorKit kit = c.getUI().getEditorKit(c); Document doc = c.getDocument(); if (length > 0) { doc.remove(startPosition, length); } kit.read(in, doc, startPosition); } else { char[] buff = new char[1024]; int nch; boolean lastWasCR = false; int last; StringBuffer sbuff = null; // Read in a block at a time, mapping \r\n to \n, as well as single // \r to \n. while ((nch = in.read(buff, 0, buff.length)) != -1) { if (sbuff == null) { sbuff = new StringBuffer(nch); } last = 0; for(int counter = 0; counter < nch; counter++) { switch(buff[counter]) { case '\r': if (lastWasCR) { if (counter == 0) { sbuff.append('\n'); } else { buff[counter - 1] = '\n'; } } else { lastWasCR = true; } break; case '\n': if (lastWasCR) { if (counter > (last + 1)) { sbuff.append(buff, last, counter - last - 1); } // else nothing to do, can skip \r, next write will // write \n lastWasCR = false; last = counter; } break; default: if (lastWasCR) { if (counter == 0) { sbuff.append('\n'); } else { buff[counter - 1] = '\n'; } lastWasCR = false; } break; } } if (last < nch) { if (lastWasCR) { if (last < (nch - 1)) { sbuff.append(buff, last, nch - last - 1); } } else { sbuff.append(buff, last, nch - last); } } } if (lastWasCR) { sbuff.append('\n'); } c.replaceSelection(sbuff != null ? sbuff.toString() : ""); } } // --- TransferHandler methods ------------------------------------ /** * This is the type of transfer actions supported by the source. Some models are * not mutable, so a transfer operation of COPY only should * be advertised in that case. * * @param c The component holding the data to be transfered. This * argument is provided to enable sharing of TransferHandlers by * multiple components. * @return This is implemented to return NONE if the component is a JPasswordField * since exporting data via user gestures is not allowed. If the text component is * editable, COPY_OR_MOVE is returned, otherwise just COPY is allowed. */ public int getSourceActions(JComponent c) { if (c instanceof JPasswordField && c.getClientProperty("JPasswordField.cutCopyAllowed") != Boolean.TRUE) { return NONE; } return ((JTextComponent)c).isEditable() ? COPY_OR_MOVE : COPY; } /** * Create a Transferable to use as the source for a data transfer. * * @param comp The component holding the data to be transfered. This * argument is provided to enable sharing of TransferHandlers by * multiple components. * @return The representation of the data to be transfered. * */ protected Transferable createTransferable(JComponent comp) { exportComp = (JTextComponent)comp; shouldRemove = true; p0 = exportComp.getSelectionStart(); p1 = exportComp.getSelectionEnd(); return (p0 != p1) ? (new TextTransferable(exportComp, p0, p1)) : null; } /** * This method is called after data has been exported. This method should remove * the data that was transfered if the action was MOVE. * * @param source The component that was the source of the data. * @param data The data that was transferred or possibly null * if the action is <code>NONE</code>. * @param action The actual action that was performed. */ protected void exportDone(JComponent source, Transferable data, int action) { // only remove the text if shouldRemove has not been set to // false by importData and only if the action is a move if (shouldRemove && action == MOVE) { TextTransferable t = (TextTransferable)data; t.removeText(); } exportComp = null; } public boolean importData(TransferSupport support) { isDrop = support.isDrop(); if (isDrop) { modeBetween = ((JTextComponent)support.getComponent()).getDropMode() == DropMode.INSERT; dropBias = ((JTextComponent.DropLocation)support.getDropLocation()).getBias(); dropAction = support.getDropAction(); } try { return super.importData(support); } finally { isDrop = false; modeBetween = false; dropBias = null; dropAction = MOVE; } } /** * This method causes a transfer to a component from a clipboard or a * DND drop operation. The Transferable represents the data to be * imported into the component. * * @param comp The component to receive the transfer. This * argument is provided to enable sharing of TransferHandlers by * multiple components. * @param t The data to import * @return true if the data was inserted into the component, false otherwise. */ public boolean importData(JComponent comp, Transferable t) { JTextComponent c = (JTextComponent)comp; int pos = modeBetween ? c.getDropLocation().getIndex() : c.getCaretPosition(); // if we are importing to the same component that we exported from // then don't actually do anything if the drop location is inside // the drag location and set shouldRemove to false so that exportDone // knows not to remove any data if (dropAction == MOVE && c == exportComp && pos >= p0 && pos <= p1) { shouldRemove = false; return true; } boolean imported = false; DataFlavor importFlavor = getImportFlavor(t.getTransferDataFlavors(), c); if (importFlavor != null) { try { boolean useRead = false; if (comp instanceof JEditorPane) { JEditorPane ep = (JEditorPane)comp; if (!ep.getContentType().startsWith("text/plain") && importFlavor.getMimeType().startsWith(ep.getContentType())) { useRead = true; } } InputContext ic = c.getInputContext(); if (ic != null) { ic.endComposition(); } Reader r = importFlavor.getReaderForText(t); if (modeBetween) { Caret caret = c.getCaret(); if (caret instanceof DefaultCaret) { ((DefaultCaret)caret).setDot(pos, dropBias); } else { c.setCaretPosition(pos); } } handleReaderImport(r, c, useRead); if (isDrop) { c.requestFocus(); Caret caret = c.getCaret(); if (caret instanceof DefaultCaret) { int newPos = caret.getDot(); Position.Bias newBias = ((DefaultCaret)caret).getDotBias(); ((DefaultCaret)caret).setDot(pos, dropBias); ((DefaultCaret)caret).moveDot(newPos, newBias); } else { c.select(pos, c.getCaretPosition()); } } imported = true; } catch (UnsupportedFlavorException ufe) { } catch (BadLocationException ble) { } catch (IOException ioe) { } } return imported; } /** * This method indicates if a component would accept an import of the given * set of data flavors prior to actually attempting to import it. * * @param comp The component to receive the transfer. This * argument is provided to enable sharing of TransferHandlers by * multiple components. * @param flavors The data formats available * @return true if the data can be inserted into the component, false otherwise. */ public boolean canImport(JComponent comp, DataFlavor[] flavors) { JTextComponent c = (JTextComponent)comp; if (!(c.isEditable() && c.isEnabled())) { return false; } return (getImportFlavor(flavors, c) != null); } /** * A possible implementation of the Transferable interface * for text components. For a JEditorPane with a rich set * of EditorKit implementations, conversions could be made * giving a wider set of formats. This is implemented to * offer up only the active content type and text/plain * (if that is not the active format) since that can be * extracted from other formats. */ static class TextTransferable extends BasicTransferable { TextTransferable(JTextComponent c, int start, int end) { super(null, null); this.c = c; Document doc = c.getDocument(); try { p0 = doc.createPosition(start); p1 = doc.createPosition(end); plainData = c.getSelectedText(); if (c instanceof JEditorPane) { JEditorPane ep = (JEditorPane)c; mimeType = ep.getContentType(); if (mimeType.startsWith("text/plain")) { return; } StringWriter sw = new StringWriter(p1.getOffset() - p0.getOffset()); ep.getEditorKit().write(sw, doc, p0.getOffset(), p1.getOffset() - p0.getOffset()); if (mimeType.startsWith("text/html")) { htmlData = sw.toString(); } else { richText = sw.toString(); } } } catch (BadLocationException ble) { } catch (IOException ioe) { } } void removeText() { if ((p0 != null) && (p1 != null) && (p0.getOffset() != p1.getOffset())) { try { Document doc = c.getDocument(); doc.remove(p0.getOffset(), p1.getOffset() - p0.getOffset()); } catch (BadLocationException e) { } } } // ---- EditorKit other than plain or HTML text ----------------------- /** * If the EditorKit is not for text/plain or text/html, that format * is supported through the "richer flavors" part of BasicTransferable. */ protected DataFlavor[] getRicherFlavors() { if (richText == null) { return null; } try { DataFlavor[] flavors = new DataFlavor[3]; flavors[0] = new DataFlavor(mimeType + ";class=java.lang.String"); flavors[1] = new DataFlavor(mimeType + ";class=java.io.Reader"); flavors[2] = new DataFlavor(mimeType + ";class=java.io.InputStream;charset=unicode"); return flavors; } catch (ClassNotFoundException cle) { // fall through to unsupported (should not happen) } return null; } /** * The only richer format supported is the file list flavor */ protected Object getRicherData(DataFlavor flavor) throws UnsupportedFlavorException { if (richText == null) { return null; } if (String.class.equals(flavor.getRepresentationClass())) { return richText; } else if (Reader.class.equals(flavor.getRepresentationClass())) { return new StringReader(richText); } else if (InputStream.class.equals(flavor.getRepresentationClass())) { return new StringBufferInputStream(richText); } throw new UnsupportedFlavorException(flavor); } Position p0; Position p1; String mimeType; String richText; JTextComponent c; } } }