/* * Copyright (c) 1997, 2013, Oracle and/or its affiliates. All rights reserved. * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. * * This code is free software; you can redistribute it and/or modify it * under the terms of the GNU General Public License version 2 only, as * published by the Free Software Foundation. Oracle designates this * particular file as subject to the "Classpath" exception as provided * by Oracle in the LICENSE file that accompanied this code. * * This code is distributed in the hope that it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License * version 2 for more details (a copy is included in the LICENSE file that * accompanied this code). * * You should have received a copy of the GNU General Public License version * 2 along with this work; if not, write to the Free Software Foundation, * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. * * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA * or visit www.oracle.com if you need additional information or have any * questions. */ package javax.swing; import java.util.*; import java.applet.Applet; import java.awt.*; import java.awt.event.*; import java.awt.print.*; import java.beans.*; import java.io.Serializable; import java.io.ObjectOutputStream; import java.io.ObjectInputStream; import java.io.IOException; import javax.accessibility.*; import javax.swing.event.*; import javax.swing.plaf.*; import javax.swing.table.*; import javax.swing.border.*; import java.text.NumberFormat; import java.text.DateFormat; import java.text.MessageFormat; import javax.print.attribute.*; import javax.print.PrintService; import sun.reflect.misc.ReflectUtil; import sun.swing.SwingUtilities2; import sun.swing.SwingUtilities2.Section; import static sun.swing.SwingUtilities2.Section.*; import sun.swing.PrintingStatus; import sun.swing.SwingLazyValue; /** * The JTable is used to display and edit regular two-dimensional tables * of cells. * See How to Use Tables * in The Java Tutorial * for task-oriented documentation and examples of using JTable. * *

* The JTable has many * facilities that make it possible to customize its rendering and editing * but provides defaults for these features so that simple tables can be * set up easily. For example, to set up a table with 10 rows and 10 * columns of numbers: * *

 *      TableModel dataModel = new AbstractTableModel() {
 *          public int getColumnCount() { return 10; }
 *          public int getRowCount() { return 10;}
 *          public Object getValueAt(int row, int col) { return new Integer(row*col); }
 *      };
 *      JTable table = new JTable(dataModel);
 *      JScrollPane scrollpane = new JScrollPane(table);
 * 
*

* {@code JTable}s are typically placed inside of a {@code JScrollPane}. By * default, a {@code JTable} will adjust its width such that * a horizontal scrollbar is unnecessary. To allow for a horizontal scrollbar, * invoke {@link #setAutoResizeMode} with {@code AUTO_RESIZE_OFF}. * Note that if you wish to use a JTable in a standalone * view (outside of a JScrollPane) and want the header * displayed, you can get it using {@link #getTableHeader} and * display it separately. *

* To enable sorting and filtering of rows, use a * {@code RowSorter}. * You can set up a row sorter in either of two ways: *

*

* When designing applications that use the JTable it is worth paying * close attention to the data structures that will represent the table's data. * The DefaultTableModel is a model implementation that * uses a Vector of Vectors of Objects to * store the cell values. As well as copying the data from an * application into the DefaultTableModel, * it is also possible to wrap the data in the methods of the * TableModel interface so that the data can be passed to the * JTable directly, as in the example above. This often results * in more efficient applications because the model is free to choose the * internal representation that best suits the data. * A good rule of thumb for deciding whether to use the AbstractTableModel * or the DefaultTableModel is to use the AbstractTableModel * as the base class for creating subclasses and the DefaultTableModel * when subclassing is not required. *

* The "TableExample" directory in the demo area of the source distribution * gives a number of complete examples of JTable usage, * covering how the JTable can be used to provide an * editable view of data taken from a database and how to modify * the columns in the display to use specialized renderers and editors. *

* The JTable uses integers exclusively to refer to both the rows and the columns * of the model that it displays. The JTable simply takes a tabular range of cells * and uses getValueAt(int, int) to retrieve the * values from the model during painting. It is important to remember that * the column and row indexes returned by various JTable methods * are in terms of the JTable (the view) and are not * necessarily the same indexes used by the model. *

* By default, columns may be rearranged in the JTable so that the * view's columns appear in a different order to the columns in the model. * This does not affect the implementation of the model at all: when the * columns are reordered, the JTable maintains the new order of the columns * internally and converts its column indices before querying the model. *

* So, when writing a TableModel, it is not necessary to listen for column * reordering events as the model will be queried in its own coordinate * system regardless of what is happening in the view. * In the examples area there is a demonstration of a sorting algorithm making * use of exactly this technique to interpose yet another coordinate system * where the order of the rows is changed, rather than the order of the columns. *

* Similarly when using the sorting and filtering functionality * provided by RowSorter the underlying * TableModel does not need to know how to do sorting, * rather RowSorter will handle it. Coordinate * conversions will be necessary when using the row based methods of * JTable with the underlying TableModel. * All of JTables row based methods are in terms of the * RowSorter, which is not necessarily the same as that * of the underlying TableModel. For example, the * selection is always in terms of JTable so that when * using RowSorter you will need to convert using * convertRowIndexToView or * convertRowIndexToModel. The following shows how to * convert coordinates from JTable to that of the * underlying model: *

 *   int[] selection = table.getSelectedRows();
 *   for (int i = 0; i < selection.length; i++) {
 *     selection[i] = table.convertRowIndexToModel(selection[i]);
 *   }
 *   // selection is now in terms of the underlying TableModel
 * 
*

* By default if sorting is enabled JTable will persist the * selection and variable row heights in terms of the model on * sorting. For example if row 0, in terms of the underlying model, * is currently selected, after the sort row 0, in terms of the * underlying model will be selected. Visually the selection may * change, but in terms of the underlying model it will remain the * same. The one exception to that is if the model index is no longer * visible or was removed. For example, if row 0 in terms of model * was filtered out the selection will be empty after the sort. *

* J2SE 5 adds methods to JTable to provide convenient access to some * common printing needs. Simple new {@link #print()} methods allow for quick * and easy addition of printing support to your application. In addition, a new * {@link #getPrintable} method is available for more advanced printing needs. *

* As for all JComponent classes, you can use * {@link InputMap} and {@link ActionMap} to associate an * {@link Action} object with a {@link KeyStroke} and execute the * action under specified conditions. *

* Warning: Swing is not thread safe. For more * information see Swing's Threading * Policy. *

* Warning: * 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 java.beans package. * Please see {@link java.beans.XMLEncoder}. * * * @beaninfo * attribute: isContainer false * description: A component which displays data in a two dimensional grid. * * @author Philip Milne * @author Shannon Hickey (printing support) * @see javax.swing.table.DefaultTableModel * @see javax.swing.table.TableRowSorter */ /* The first versions of the JTable, contained in Swing-0.1 through * Swing-0.4, were written by Alan Chung. */ public class JTable extends JComponent implements TableModelListener, Scrollable, TableColumnModelListener, ListSelectionListener, CellEditorListener, Accessible, RowSorterListener { // // Static Constants // /** * @see #getUIClassID * @see #readObject */ private static final String uiClassID = "TableUI"; /** Do not adjust column widths automatically; use a horizontal scrollbar instead. */ public static final int AUTO_RESIZE_OFF = 0; /** When a column is adjusted in the UI, adjust the next column the opposite way. */ public static final int AUTO_RESIZE_NEXT_COLUMN = 1; /** During UI adjustment, change subsequent columns to preserve the total width; * this is the default behavior. */ public static final int AUTO_RESIZE_SUBSEQUENT_COLUMNS = 2; /** During all resize operations, apply adjustments to the last column only. */ public static final int AUTO_RESIZE_LAST_COLUMN = 3; /** During all resize operations, proportionately resize all columns. */ public static final int AUTO_RESIZE_ALL_COLUMNS = 4; /** * Printing modes, used in printing JTables. * * @see #print(JTable.PrintMode, MessageFormat, MessageFormat, * boolean, PrintRequestAttributeSet, boolean) * @see #getPrintable * @since 1.5 */ public enum PrintMode { /** * Printing mode that prints the table at its current size, * spreading both columns and rows across multiple pages if necessary. */ NORMAL, /** * Printing mode that scales the output smaller, if necessary, * to fit the table's entire width (and thereby all columns) on each page; * Rows are spread across multiple pages as necessary. */ FIT_WIDTH } // // Instance Variables // /** The TableModel of the table. */ protected TableModel dataModel; /** The TableColumnModel of the table. */ protected TableColumnModel columnModel; /** The ListSelectionModel of the table, used to keep track of row selections. */ protected ListSelectionModel selectionModel; /** The TableHeader working with the table. */ protected JTableHeader tableHeader; /** The height in pixels of each row in the table. */ protected int rowHeight; /** The height in pixels of the margin between the cells in each row. */ protected int rowMargin; /** The color of the grid. */ protected Color gridColor; /** The table draws horizontal lines between cells if showHorizontalLines is true. */ protected boolean showHorizontalLines; /** The table draws vertical lines between cells if showVerticalLines is true. */ protected boolean showVerticalLines; /** * Determines if the table automatically resizes the * width of the table's columns to take up the entire width of the * table, and how it does the resizing. */ protected int autoResizeMode; /** * The table will query the TableModel to build the default * set of columns if this is true. */ protected boolean autoCreateColumnsFromModel; /** Used by the Scrollable interface to determine the initial visible area. */ protected Dimension preferredViewportSize; /** True if row selection is allowed in this table. */ protected boolean rowSelectionAllowed; /** * Obsolete as of Java 2 platform v1.3. Please use the * rowSelectionAllowed property and the * columnSelectionAllowed property of the * columnModel instead. Or use the * method getCellSelectionEnabled. */ /* * If true, both a row selection and a column selection * can be non-empty at the same time, the selected cells are the * the cells whose row and column are both selected. */ protected boolean cellSelectionEnabled; /** If editing, the Component that is handling the editing. */ transient protected Component editorComp; /** * The active cell editor object, that overwrites the screen real estate * occupied by the current cell and allows the user to change its contents. * {@code null} if the table isn't currently editing. */ transient protected TableCellEditor cellEditor; /** Identifies the column of the cell being edited. */ transient protected int editingColumn; /** Identifies the row of the cell being edited. */ transient protected int editingRow; /** * A table of objects that display the contents of a cell, * indexed by class as declared in getColumnClass * in the TableModel interface. */ transient protected Hashtable defaultRenderersByColumnClass; /** * A table of objects that display and edit the contents of a cell, * indexed by class as declared in getColumnClass * in the TableModel interface. */ transient protected Hashtable defaultEditorsByColumnClass; /** The foreground color of selected cells. */ protected Color selectionForeground; /** The background color of selected cells. */ protected Color selectionBackground; // // Private state // // WARNING: If you directly access this field you should also change the // SortManager.modelRowSizes field as well. private SizeSequence rowModel; private boolean dragEnabled; private boolean surrendersFocusOnKeystroke; private PropertyChangeListener editorRemover = null; /** * The last value of getValueIsAdjusting from the column selection models * columnSelectionChanged notification. Used to test if a repaint is * needed. */ private boolean columnSelectionAdjusting; /** * The last value of getValueIsAdjusting from the row selection models * valueChanged notification. Used to test if a repaint is needed. */ private boolean rowSelectionAdjusting; /** * To communicate errors between threads during printing. */ private Throwable printError; /** * True when setRowHeight(int) has been invoked. */ private boolean isRowHeightSet; /** * If true, on a sort the selection is reset. */ private boolean updateSelectionOnSort; /** * Information used in sorting. */ private transient SortManager sortManager; /** * If true, when sorterChanged is invoked it's value is ignored. */ private boolean ignoreSortChange; /** * Whether or not sorterChanged has been invoked. */ private boolean sorterChanged; /** * If true, any time the model changes a new RowSorter is set. */ private boolean autoCreateRowSorter; /** * Whether or not the table always fills the viewport height. * @see #setFillsViewportHeight * @see #getScrollableTracksViewportHeight */ private boolean fillsViewportHeight; /** * The drop mode for this component. */ private DropMode dropMode = DropMode.USE_SELECTION; /** * The drop location. */ private transient DropLocation dropLocation; /** * A subclass of TransferHandler.DropLocation representing * a drop location for a JTable. * * @see #getDropLocation * @since 1.6 */ public static final class DropLocation extends TransferHandler.DropLocation { private final int row; private final int col; private final boolean isInsertRow; private final boolean isInsertCol; private DropLocation(Point p, int row, int col, boolean isInsertRow, boolean isInsertCol) { super(p); this.row = row; this.col = col; this.isInsertRow = isInsertRow; this.isInsertCol = isInsertCol; } /** * Returns the row index where a dropped item should be placed in the * table. Interpretation of the value depends on the return of * isInsertRow(). If that method returns * true this value indicates the index where a new * row should be inserted. Otherwise, it represents the value * of an existing row on which the data was dropped. This index is * in terms of the view. *

* -1 indicates that the drop occurred over empty space, * and no row could be calculated. * * @return the drop row */ public int getRow() { return row; } /** * Returns the column index where a dropped item should be placed in the * table. Interpretation of the value depends on the return of * isInsertColumn(). If that method returns * true this value indicates the index where a new * column should be inserted. Otherwise, it represents the value * of an existing column on which the data was dropped. This index is * in terms of the view. *

* -1 indicates that the drop occurred over empty space, * and no column could be calculated. * * @return the drop row */ public int getColumn() { return col; } /** * Returns whether or not this location represents an insert * of a row. * * @return whether or not this is an insert row */ public boolean isInsertRow() { return isInsertRow; } /** * Returns whether or not this location represents an insert * of a column. * * @return whether or not this is an insert column */ public boolean isInsertColumn() { return isInsertCol; } /** * Returns a string representation of this drop location. * This method is intended to be used for debugging purposes, * and the content and format of the returned string may vary * between implementations. * * @return a string representation of this drop location */ public String toString() { return getClass().getName() + "[dropPoint=" + getDropPoint() + "," + "row=" + row + "," + "column=" + col + "," + "insertRow=" + isInsertRow + "," + "insertColumn=" + isInsertCol + "]"; } } // // Constructors // /** * Constructs a default JTable that is initialized with a default * data model, a default column model, and a default selection * model. * * @see #createDefaultDataModel * @see #createDefaultColumnModel * @see #createDefaultSelectionModel */ public JTable() { this(null, null, null); } /** * Constructs a JTable that is initialized with * dm as the data model, a default column model, * and a default selection model. * * @param dm the data model for the table * @see #createDefaultColumnModel * @see #createDefaultSelectionModel */ public JTable(TableModel dm) { this(dm, null, null); } /** * Constructs a JTable that is initialized with * dm as the data model, cm * as the column model, and a default selection model. * * @param dm the data model for the table * @param cm the column model for the table * @see #createDefaultSelectionModel */ public JTable(TableModel dm, TableColumnModel cm) { this(dm, cm, null); } /** * Constructs a JTable that is initialized with * dm as the data model, cm as the * column model, and sm as the selection model. * If any of the parameters are null this method * will initialize the table with the corresponding default model. * The autoCreateColumnsFromModel flag is set to false * if cm is non-null, otherwise it is set to true * and the column model is populated with suitable * TableColumns for the columns in dm. * * @param dm the data model for the table * @param cm the column model for the table * @param sm the row selection model for the table * @see #createDefaultDataModel * @see #createDefaultColumnModel * @see #createDefaultSelectionModel */ public JTable(TableModel dm, TableColumnModel cm, ListSelectionModel sm) { super(); setLayout(null); setFocusTraversalKeys(KeyboardFocusManager.FORWARD_TRAVERSAL_KEYS, JComponent.getManagingFocusForwardTraversalKeys()); setFocusTraversalKeys(KeyboardFocusManager.BACKWARD_TRAVERSAL_KEYS, JComponent.getManagingFocusBackwardTraversalKeys()); if (cm == null) { cm = createDefaultColumnModel(); autoCreateColumnsFromModel = true; } setColumnModel(cm); if (sm == null) { sm = createDefaultSelectionModel(); } setSelectionModel(sm); // Set the model last, that way if the autoCreatColumnsFromModel has // been set above, we will automatically populate an empty columnModel // with suitable columns for the new model. if (dm == null) { dm = createDefaultDataModel(); } setModel(dm); initializeLocalVars(); updateUI(); } /** * Constructs a JTable with numRows * and numColumns of empty cells using * DefaultTableModel. The columns will have * names of the form "A", "B", "C", etc. * * @param numRows the number of rows the table holds * @param numColumns the number of columns the table holds * @see javax.swing.table.DefaultTableModel */ public JTable(int numRows, int numColumns) { this(new DefaultTableModel(numRows, numColumns)); } /** * Constructs a JTable to display the values in the * Vector of Vectors, rowData, * with column names, columnNames. The * Vectors contained in rowData * should contain the values for that row. In other words, * the value of the cell at row 1, column 5 can be obtained * with the following code: * *

((Vector)rowData.elementAt(1)).elementAt(5);
*

* @param rowData the data for the new table * @param columnNames names of each column */ public JTable(Vector rowData, Vector columnNames) { this(new DefaultTableModel(rowData, columnNames)); } /** * Constructs a JTable to display the values in the two dimensional array, * rowData, with column names, columnNames. * rowData is an array of rows, so the value of the cell at row 1, * column 5 can be obtained with the following code: * *

 rowData[1][5]; 
*

* All rows must be of the same length as columnNames. *

* @param rowData the data for the new table * @param columnNames names of each column */ public JTable(final Object[][] rowData, final Object[] columnNames) { this(new AbstractTableModel() { public String getColumnName(int column) { return columnNames[column].toString(); } public int getRowCount() { return rowData.length; } public int getColumnCount() { return columnNames.length; } public Object getValueAt(int row, int col) { return rowData[row][col]; } public boolean isCellEditable(int row, int column) { return true; } public void setValueAt(Object value, int row, int col) { rowData[row][col] = value; fireTableCellUpdated(row, col); } }); } /** * Calls the configureEnclosingScrollPane method. * * @see #configureEnclosingScrollPane */ public void addNotify() { super.addNotify(); configureEnclosingScrollPane(); } /** * If this JTable is the viewportView of an enclosing JScrollPane * (the usual situation), configure this ScrollPane by, amongst other things, * installing the table's tableHeader as the columnHeaderView of the scroll pane. * When a JTable is added to a JScrollPane in the usual way, * using new JScrollPane(myTable), addNotify is * called in the JTable (when the table is added to the viewport). * JTable's addNotify method in turn calls this method, * which is protected so that this default installation procedure can * be overridden by a subclass. * * @see #addNotify */ protected void configureEnclosingScrollPane() { Container parent = SwingUtilities.getUnwrappedParent(this); if (parent instanceof JViewport) { JViewport port = (JViewport) parent; Container gp = port.getParent(); if (gp instanceof JScrollPane) { JScrollPane scrollPane = (JScrollPane)gp; // Make certain we are the viewPort's view and not, for // example, the rowHeaderView of the scrollPane - // an implementor of fixed columns might do this. JViewport viewport = scrollPane.getViewport(); if (viewport == null || SwingUtilities.getUnwrappedView(viewport) != this) { return; } scrollPane.setColumnHeaderView(getTableHeader()); // configure the scrollpane for any LAF dependent settings configureEnclosingScrollPaneUI(); } } } /** * This is a sub-part of configureEnclosingScrollPane() that configures * anything on the scrollpane that may change when the look and feel * changes. It needed to be split out from configureEnclosingScrollPane() so * that it can be called from updateUI() when the LAF changes without * causing the regression found in bug 6687962. This was because updateUI() * is called from the constructor which then caused * configureEnclosingScrollPane() to be called by the constructor which * changes its contract for any subclass that overrides it. So by splitting * it out in this way configureEnclosingScrollPaneUI() can be called both * from configureEnclosingScrollPane() and updateUI() in a safe manor. */ private void configureEnclosingScrollPaneUI() { Container parent = SwingUtilities.getUnwrappedParent(this); if (parent instanceof JViewport) { JViewport port = (JViewport) parent; Container gp = port.getParent(); if (gp instanceof JScrollPane) { JScrollPane scrollPane = (JScrollPane)gp; // Make certain we are the viewPort's view and not, for // example, the rowHeaderView of the scrollPane - // an implementor of fixed columns might do this. JViewport viewport = scrollPane.getViewport(); if (viewport == null || SwingUtilities.getUnwrappedView(viewport) != this) { return; } // scrollPane.getViewport().setBackingStoreEnabled(true); Border border = scrollPane.getBorder(); if (border == null || border instanceof UIResource) { Border scrollPaneBorder = UIManager.getBorder("Table.scrollPaneBorder"); if (scrollPaneBorder != null) { scrollPane.setBorder(scrollPaneBorder); } } // add JScrollBar corner component if available from LAF and not already set by the user Component corner = scrollPane.getCorner(JScrollPane.UPPER_TRAILING_CORNER); if (corner == null || corner instanceof UIResource){ corner = null; try { corner = (Component) UIManager.get( "Table.scrollPaneCornerComponent"); } catch (Exception e) { // just ignore and don't set corner } scrollPane.setCorner(JScrollPane.UPPER_TRAILING_CORNER, corner); } } } } /** * Calls the unconfigureEnclosingScrollPane method. * * @see #unconfigureEnclosingScrollPane */ public void removeNotify() { KeyboardFocusManager.getCurrentKeyboardFocusManager(). removePropertyChangeListener("permanentFocusOwner", editorRemover); editorRemover = null; unconfigureEnclosingScrollPane(); super.removeNotify(); } /** * Reverses the effect of configureEnclosingScrollPane * by replacing the columnHeaderView of the enclosing * scroll pane with null. JTable's * removeNotify method calls * this method, which is protected so that this default uninstallation * procedure can be overridden by a subclass. * * @see #removeNotify * @see #configureEnclosingScrollPane * @since 1.3 */ protected void unconfigureEnclosingScrollPane() { Container parent = SwingUtilities.getUnwrappedParent(this); if (parent instanceof JViewport) { JViewport port = (JViewport) parent; Container gp = port.getParent(); if (gp instanceof JScrollPane) { JScrollPane scrollPane = (JScrollPane)gp; // Make certain we are the viewPort's view and not, for // example, the rowHeaderView of the scrollPane - // an implementor of fixed columns might do this. JViewport viewport = scrollPane.getViewport(); if (viewport == null || SwingUtilities.getUnwrappedView(viewport) != this) { return; } scrollPane.setColumnHeaderView(null); // remove ScrollPane corner if one was added by the LAF Component corner = scrollPane.getCorner(JScrollPane.UPPER_TRAILING_CORNER); if (corner instanceof UIResource){ scrollPane.setCorner(JScrollPane.UPPER_TRAILING_CORNER, null); } } } } void setUIProperty(String propertyName, Object value) { if (propertyName == "rowHeight") { if (!isRowHeightSet) { setRowHeight(((Number)value).intValue()); isRowHeightSet = false; } return; } super.setUIProperty(propertyName, value); } // // Static Methods // /** * Equivalent to new JScrollPane(aTable). * * @deprecated As of Swing version 1.0.2, * replaced by new JScrollPane(aTable). */ @Deprecated static public JScrollPane createScrollPaneForTable(JTable aTable) { return new JScrollPane(aTable); } // // Table Attributes // /** * Sets the tableHeader working with this JTable to newHeader. * It is legal to have a null tableHeader. * * @param tableHeader new tableHeader * @see #getTableHeader * @beaninfo * bound: true * description: The JTableHeader instance which renders the column headers. */ public void setTableHeader(JTableHeader tableHeader) { if (this.tableHeader != tableHeader) { JTableHeader old = this.tableHeader; // Release the old header if (old != null) { old.setTable(null); } this.tableHeader = tableHeader; if (tableHeader != null) { tableHeader.setTable(this); } firePropertyChange("tableHeader", old, tableHeader); } } /** * Returns the tableHeader used by this JTable. * * @return the tableHeader used by this table * @see #setTableHeader */ public JTableHeader getTableHeader() { return tableHeader; } /** * Sets the height, in pixels, of all cells to rowHeight, * revalidates, and repaints. * The height of the cells will be equal to the row height minus * the row margin. * * @param rowHeight new row height * @exception IllegalArgumentException if rowHeight is * less than 1 * @see #getRowHeight * @beaninfo * bound: true * description: The height of the specified row. */ public void setRowHeight(int rowHeight) { if (rowHeight <= 0) { throw new IllegalArgumentException("New row height less than 1"); } int old = this.rowHeight; this.rowHeight = rowHeight; rowModel = null; if (sortManager != null) { sortManager.modelRowSizes = null; } isRowHeightSet = true; resizeAndRepaint(); firePropertyChange("rowHeight", old, rowHeight); } /** * Returns the height of a table row, in pixels. * * @return the height in pixels of a table row * @see #setRowHeight */ public int getRowHeight() { return rowHeight; } private SizeSequence getRowModel() { if (rowModel == null) { rowModel = new SizeSequence(getRowCount(), getRowHeight()); } return rowModel; } /** * Sets the height for row to rowHeight, * revalidates, and repaints. The height of the cells in this row * will be equal to the row height minus the row margin. * * @param row the row whose height is being changed * @param rowHeight new row height, in pixels * @exception IllegalArgumentException if rowHeight is * less than 1 * @beaninfo * bound: true * description: The height in pixels of the cells in row * @since 1.3 */ public void setRowHeight(int row, int rowHeight) { if (rowHeight <= 0) { throw new IllegalArgumentException("New row height less than 1"); } getRowModel().setSize(row, rowHeight); if (sortManager != null) { sortManager.setViewRowHeight(row, rowHeight); } resizeAndRepaint(); } /** * Returns the height, in pixels, of the cells in row. * @param row the row whose height is to be returned * @return the height, in pixels, of the cells in the row * @since 1.3 */ public int getRowHeight(int row) { return (rowModel == null) ? getRowHeight() : rowModel.getSize(row); } /** * Sets the amount of empty space between cells in adjacent rows. * * @param rowMargin the number of pixels between cells in a row * @see #getRowMargin * @beaninfo * bound: true * description: The amount of space between cells. */ public void setRowMargin(int rowMargin) { int old = this.rowMargin; this.rowMargin = rowMargin; resizeAndRepaint(); firePropertyChange("rowMargin", old, rowMargin); } /** * Gets the amount of empty space, in pixels, between cells. Equivalent to: * getIntercellSpacing().height. * @return the number of pixels between cells in a row * * @see #setRowMargin */ public int getRowMargin() { return rowMargin; } /** * Sets the rowMargin and the columnMargin -- * the height and width of the space between cells -- to * intercellSpacing. * * @param intercellSpacing a Dimension * specifying the new width * and height between cells * @see #getIntercellSpacing * @beaninfo * description: The spacing between the cells, * drawn in the background color of the JTable. */ public void setIntercellSpacing(Dimension intercellSpacing) { // Set the rowMargin here and columnMargin in the TableColumnModel setRowMargin(intercellSpacing.height); getColumnModel().setColumnMargin(intercellSpacing.width); resizeAndRepaint(); } /** * Returns the horizontal and vertical space between cells. * The default spacing is look and feel dependent. * * @return the horizontal and vertical spacing between cells * @see #setIntercellSpacing */ public Dimension getIntercellSpacing() { return new Dimension(getColumnModel().getColumnMargin(), rowMargin); } /** * Sets the color used to draw grid lines to gridColor and redisplays. * The default color is look and feel dependent. * * @param gridColor the new color of the grid lines * @exception IllegalArgumentException if gridColor is null * @see #getGridColor * @beaninfo * bound: true * description: The grid color. */ public void setGridColor(Color gridColor) { if (gridColor == null) { throw new IllegalArgumentException("New color is null"); } Color old = this.gridColor; this.gridColor = gridColor; firePropertyChange("gridColor", old, gridColor); // Redraw repaint(); } /** * Returns the color used to draw grid lines. * The default color is look and feel dependent. * * @return the color used to draw grid lines * @see #setGridColor */ public Color getGridColor() { return gridColor; } /** * Sets whether the table draws grid lines around cells. * If showGrid is true it does; if it is false it doesn't. * There is no getShowGrid method as this state is held * in two variables -- showHorizontalLines and showVerticalLines -- * each of which can be queried independently. * * @param showGrid true if table view should draw grid lines * * @see #setShowVerticalLines * @see #setShowHorizontalLines * @beaninfo * description: The color used to draw the grid lines. */ public void setShowGrid(boolean showGrid) { setShowHorizontalLines(showGrid); setShowVerticalLines(showGrid); // Redraw repaint(); } /** * Sets whether the table draws horizontal lines between cells. * If showHorizontalLines is true it does; if it is false it doesn't. * * @param showHorizontalLines true if table view should draw horizontal lines * @see #getShowHorizontalLines * @see #setShowGrid * @see #setShowVerticalLines * @beaninfo * bound: true * description: Whether horizontal lines should be drawn in between the cells. */ public void setShowHorizontalLines(boolean showHorizontalLines) { boolean old = this.showHorizontalLines; this.showHorizontalLines = showHorizontalLines; firePropertyChange("showHorizontalLines", old, showHorizontalLines); // Redraw repaint(); } /** * Sets whether the table draws vertical lines between cells. * If showVerticalLines is true it does; if it is false it doesn't. * * @param showVerticalLines true if table view should draw vertical lines * @see #getShowVerticalLines * @see #setShowGrid * @see #setShowHorizontalLines * @beaninfo * bound: true * description: Whether vertical lines should be drawn in between the cells. */ public void setShowVerticalLines(boolean showVerticalLines) { boolean old = this.showVerticalLines; this.showVerticalLines = showVerticalLines; firePropertyChange("showVerticalLines", old, showVerticalLines); // Redraw repaint(); } /** * Returns true if the table draws horizontal lines between cells, false if it * doesn't. The default value is look and feel dependent. * * @return true if the table draws horizontal lines between cells, false if it * doesn't * @see #setShowHorizontalLines */ public boolean getShowHorizontalLines() { return showHorizontalLines; } /** * Returns true if the table draws vertical lines between cells, false if it * doesn't. The default value is look and feel dependent. * * @return true if the table draws vertical lines between cells, false if it * doesn't * @see #setShowVerticalLines */ public boolean getShowVerticalLines() { return showVerticalLines; } /** * Sets the table's auto resize mode when the table is resized. For further * information on how the different resize modes work, see * {@link #doLayout}. * * @param mode One of 5 legal values: * AUTO_RESIZE_OFF, * AUTO_RESIZE_NEXT_COLUMN, * AUTO_RESIZE_SUBSEQUENT_COLUMNS, * AUTO_RESIZE_LAST_COLUMN, * AUTO_RESIZE_ALL_COLUMNS * * @see #getAutoResizeMode * @see #doLayout * @beaninfo * bound: true * description: Whether the columns should adjust themselves automatically. * enum: AUTO_RESIZE_OFF JTable.AUTO_RESIZE_OFF * AUTO_RESIZE_NEXT_COLUMN JTable.AUTO_RESIZE_NEXT_COLUMN * AUTO_RESIZE_SUBSEQUENT_COLUMNS JTable.AUTO_RESIZE_SUBSEQUENT_COLUMNS * AUTO_RESIZE_LAST_COLUMN JTable.AUTO_RESIZE_LAST_COLUMN * AUTO_RESIZE_ALL_COLUMNS JTable.AUTO_RESIZE_ALL_COLUMNS */ public void setAutoResizeMode(int mode) { if ((mode == AUTO_RESIZE_OFF) || (mode == AUTO_RESIZE_NEXT_COLUMN) || (mode == AUTO_RESIZE_SUBSEQUENT_COLUMNS) || (mode == AUTO_RESIZE_LAST_COLUMN) || (mode == AUTO_RESIZE_ALL_COLUMNS)) { int old = autoResizeMode; autoResizeMode = mode; resizeAndRepaint(); if (tableHeader != null) { tableHeader.resizeAndRepaint(); } firePropertyChange("autoResizeMode", old, autoResizeMode); } } /** * Returns the auto resize mode of the table. The default mode * is AUTO_RESIZE_SUBSEQUENT_COLUMNS. * * @return the autoResizeMode of the table * * @see #setAutoResizeMode * @see #doLayout */ public int getAutoResizeMode() { return autoResizeMode; } /** * Sets this table's autoCreateColumnsFromModel flag. * This method calls createDefaultColumnsFromModel if * autoCreateColumnsFromModel changes from false to true. * * @param autoCreateColumnsFromModel true if JTable should automatically create columns * @see #getAutoCreateColumnsFromModel * @see #createDefaultColumnsFromModel * @beaninfo * bound: true * description: Automatically populates the columnModel when a new TableModel is submitted. */ public void setAutoCreateColumnsFromModel(boolean autoCreateColumnsFromModel) { if (this.autoCreateColumnsFromModel != autoCreateColumnsFromModel) { boolean old = this.autoCreateColumnsFromModel; this.autoCreateColumnsFromModel = autoCreateColumnsFromModel; if (autoCreateColumnsFromModel) { createDefaultColumnsFromModel(); } firePropertyChange("autoCreateColumnsFromModel", old, autoCreateColumnsFromModel); } } /** * Determines whether the table will create default columns from the model. * If true, setModel will clear any existing columns and * create new columns from the new model. Also, if the event in * the tableChanged notification specifies that the * entire table changed, then the columns will be rebuilt. * The default is true. * * @return the autoCreateColumnsFromModel of the table * @see #setAutoCreateColumnsFromModel * @see #createDefaultColumnsFromModel */ public boolean getAutoCreateColumnsFromModel() { return autoCreateColumnsFromModel; } /** * Creates default columns for the table from * the data model using the getColumnCount method * defined in the TableModel interface. *

* Clears any existing columns before creating the * new columns based on information from the model. * * @see #getAutoCreateColumnsFromModel */ public void createDefaultColumnsFromModel() { TableModel m = getModel(); if (m != null) { // Remove any current columns TableColumnModel cm = getColumnModel(); while (cm.getColumnCount() > 0) { cm.removeColumn(cm.getColumn(0)); } // Create new columns from the data model info for (int i = 0; i < m.getColumnCount(); i++) { TableColumn newColumn = new TableColumn(i); addColumn(newColumn); } } } /** * Sets a default cell renderer to be used if no renderer has been set in * a TableColumn. If renderer is null, * removes the default renderer for this column class. * * @param columnClass set the default cell renderer for this columnClass * @param renderer default cell renderer to be used for this * columnClass * @see #getDefaultRenderer * @see #setDefaultEditor */ public void setDefaultRenderer(Class columnClass, TableCellRenderer renderer) { if (renderer != null) { defaultRenderersByColumnClass.put(columnClass, renderer); } else { defaultRenderersByColumnClass.remove(columnClass); } } /** * Returns the cell renderer to be used when no renderer has been set in * a TableColumn. During the rendering of cells the renderer is fetched from * a Hashtable of entries according to the class of the cells in the column. If * there is no entry for this columnClass the method returns * the entry for the most specific superclass. The JTable installs entries * for Object, Number, and Boolean, all of which can be modified * or replaced. * * @param columnClass return the default cell renderer * for this columnClass * @return the renderer for this columnClass * @see #setDefaultRenderer * @see #getColumnClass */ public TableCellRenderer getDefaultRenderer(Class columnClass) { if (columnClass == null) { return null; } else { Object renderer = defaultRenderersByColumnClass.get(columnClass); if (renderer != null) { return (TableCellRenderer)renderer; } else { Class c = columnClass.getSuperclass(); if (c == null && columnClass != Object.class) { c = Object.class; } return getDefaultRenderer(c); } } } /** * Sets a default cell editor to be used if no editor has been set in * a TableColumn. If no editing is required in a table, or a * particular column in a table, uses the isCellEditable * method in the TableModel interface to ensure that this * JTable will not start an editor in these columns. * If editor is null, removes the default editor for this * column class. * * @param columnClass set the default cell editor for this columnClass * @param editor default cell editor to be used for this columnClass * @see TableModel#isCellEditable * @see #getDefaultEditor * @see #setDefaultRenderer */ public void setDefaultEditor(Class columnClass, TableCellEditor editor) { if (editor != null) { defaultEditorsByColumnClass.put(columnClass, editor); } else { defaultEditorsByColumnClass.remove(columnClass); } } /** * Returns the editor to be used when no editor has been set in * a TableColumn. During the editing of cells the editor is fetched from * a Hashtable of entries according to the class of the cells in the column. If * there is no entry for this columnClass the method returns * the entry for the most specific superclass. The JTable installs entries * for Object, Number, and Boolean, all of which can be modified * or replaced. * * @param columnClass return the default cell editor for this columnClass * @return the default cell editor to be used for this columnClass * @see #setDefaultEditor * @see #getColumnClass */ public TableCellEditor getDefaultEditor(Class columnClass) { if (columnClass == null) { return null; } else { Object editor = defaultEditorsByColumnClass.get(columnClass); if (editor != null) { return (TableCellEditor)editor; } else { return getDefaultEditor(columnClass.getSuperclass()); } } } /** * Turns on or off automatic drag handling. In order to enable automatic * drag handling, this property should be set to {@code true}, and the * table's {@code TransferHandler} needs to be {@code non-null}. * The default value of the {@code dragEnabled} property is {@code false}. *

* The job of honoring this property, and recognizing a user drag gesture, * lies with the look and feel implementation, and in particular, the table's * {@code TableUI}. When automatic drag handling is enabled, most look and * feels (including those that subclass {@code BasicLookAndFeel}) begin a * drag and drop operation whenever the user presses the mouse button over * an item (in single selection mode) or a selection (in other selection * modes) and then moves the mouse a few pixels. Setting this property to * {@code true} can therefore have a subtle effect on how selections behave. *

* If a look and feel is used that ignores this property, you can still * begin a drag and drop operation by calling {@code exportAsDrag} on the * table's {@code TransferHandler}. * * @param b whether or not to enable automatic drag handling * @exception HeadlessException if * b is true and * GraphicsEnvironment.isHeadless() * returns true * @see java.awt.GraphicsEnvironment#isHeadless * @see #getDragEnabled * @see #setTransferHandler * @see TransferHandler * @since 1.4 * * @beaninfo * description: determines whether automatic drag handling is enabled * bound: false */ public void setDragEnabled(boolean b) { if (b && GraphicsEnvironment.isHeadless()) { throw new HeadlessException(); } dragEnabled = b; } /** * Returns whether or not automatic drag handling is enabled. * * @return the value of the {@code dragEnabled} property * @see #setDragEnabled * @since 1.4 */ public boolean getDragEnabled() { return dragEnabled; } /** * Sets the drop mode for this component. For backward compatibility, * the default for this property is DropMode.USE_SELECTION. * Usage of one of the other modes is recommended, however, for an * improved user experience. DropMode.ON, for instance, * offers similar behavior of showing items as selected, but does so without * affecting the actual selection in the table. *

* JTable supports the following drop modes: *

*

* The drop mode is only meaningful if this component has a * TransferHandler that accepts drops. * * @param dropMode the drop mode to use * @throws IllegalArgumentException if the drop mode is unsupported * or null * @see #getDropMode * @see #getDropLocation * @see #setTransferHandler * @see TransferHandler * @since 1.6 */ public final void setDropMode(DropMode dropMode) { if (dropMode != null) { switch (dropMode) { case USE_SELECTION: case ON: case INSERT: case INSERT_ROWS: case INSERT_COLS: case ON_OR_INSERT: case ON_OR_INSERT_ROWS: case ON_OR_INSERT_COLS: this.dropMode = dropMode; return; } } throw new IllegalArgumentException(dropMode + ": Unsupported drop mode for table"); } /** * Returns the drop mode for this component. * * @return the drop mode for this component * @see #setDropMode * @since 1.6 */ public final DropMode getDropMode() { return dropMode; } /** * Calculates a drop location in this component, representing where a * drop at the given point should insert data. * * @param p the point to calculate a drop location for * @return the drop location, or null */ DropLocation dropLocationForPoint(Point p) { DropLocation location = null; int row = rowAtPoint(p); int col = columnAtPoint(p); boolean outside = Boolean.TRUE == getClientProperty("Table.isFileList") && SwingUtilities2.pointOutsidePrefSize(this, row, col, p); Rectangle rect = getCellRect(row, col, true); Section xSection, ySection; boolean between = false; boolean ltr = getComponentOrientation().isLeftToRight(); switch(dropMode) { case USE_SELECTION: case ON: if (row == -1 || col == -1 || outside) { location = new DropLocation(p, -1, -1, false, false); } else { location = new DropLocation(p, row, col, false, false); } break; case INSERT: if (row == -1 && col == -1) { location = new DropLocation(p, 0, 0, true, true); break; } xSection = SwingUtilities2.liesInHorizontal(rect, p, ltr, true); if (row == -1) { if (xSection == LEADING) { location = new DropLocation(p, getRowCount(), col, true, true); } else if (xSection == TRAILING) { location = new DropLocation(p, getRowCount(), col + 1, true, true); } else { location = new DropLocation(p, getRowCount(), col, true, false); } } else if (xSection == LEADING || xSection == TRAILING) { ySection = SwingUtilities2.liesInVertical(rect, p, true); if (ySection == LEADING) { between = true; } else if (ySection == TRAILING) { row++; between = true; } location = new DropLocation(p, row, xSection == TRAILING ? col + 1 : col, between, true); } else { if (SwingUtilities2.liesInVertical(rect, p, false) == TRAILING) { row++; } location = new DropLocation(p, row, col, true, false); } break; case INSERT_ROWS: if (row == -1 && col == -1) { location = new DropLocation(p, -1, -1, false, false); break; } if (row == -1) { location = new DropLocation(p, getRowCount(), col, true, false); break; } if (SwingUtilities2.liesInVertical(rect, p, false) == TRAILING) { row++; } location = new DropLocation(p, row, col, true, false); break; case ON_OR_INSERT_ROWS: if (row == -1 && col == -1) { location = new DropLocation(p, -1, -1, false, false); break; } if (row == -1) { location = new DropLocation(p, getRowCount(), col, true, false); break; } ySection = SwingUtilities2.liesInVertical(rect, p, true); if (ySection == LEADING) { between = true; } else if (ySection == TRAILING) { row++; between = true; } location = new DropLocation(p, row, col, between, false); break; case INSERT_COLS: if (row == -1) { location = new DropLocation(p, -1, -1, false, false); break; } if (col == -1) { location = new DropLocation(p, getColumnCount(), col, false, true); break; } if (SwingUtilities2.liesInHorizontal(rect, p, ltr, false) == TRAILING) { col++; } location = new DropLocation(p, row, col, false, true); break; case ON_OR_INSERT_COLS: if (row == -1) { location = new DropLocation(p, -1, -1, false, false); break; } if (col == -1) { location = new DropLocation(p, row, getColumnCount(), false, true); break; } xSection = SwingUtilities2.liesInHorizontal(rect, p, ltr, true); if (xSection == LEADING) { between = true; } else if (xSection == TRAILING) { col++; between = true; } location = new DropLocation(p, row, col, false, between); break; case ON_OR_INSERT: if (row == -1 && col == -1) { location = new DropLocation(p, 0, 0, true, true); break; } xSection = SwingUtilities2.liesInHorizontal(rect, p, ltr, true); if (row == -1) { if (xSection == LEADING) { location = new DropLocation(p, getRowCount(), col, true, true); } else if (xSection == TRAILING) { location = new DropLocation(p, getRowCount(), col + 1, true, true); } else { location = new DropLocation(p, getRowCount(), col, true, false); } break; } ySection = SwingUtilities2.liesInVertical(rect, p, true); if (ySection == LEADING) { between = true; } else if (ySection == TRAILING) { row++; between = true; } location = new DropLocation(p, row, xSection == TRAILING ? col + 1 : col, between, xSection != MIDDLE); break; default: assert false : "Unexpected drop mode"; } return location; } /** * Called to set or clear the drop location during a DnD operation. * In some cases, the component may need to use it's internal selection * temporarily to indicate the drop location. To help facilitate this, * this method returns and accepts as a parameter a state object. * This state object can be used to store, and later restore, the selection * state. Whatever this method returns will be passed back to it in * future calls, as the state parameter. If it wants the DnD system to * continue storing the same state, it must pass it back every time. * Here's how this is used: *

* Let's say that on the first call to this method the component decides * to save some state (because it is about to use the selection to show * a drop index). It can return a state object to the caller encapsulating * any saved selection state. On a second call, let's say the drop location * is being changed to something else. The component doesn't need to * restore anything yet, so it simply passes back the same state object * to have the DnD system continue storing it. Finally, let's say this * method is messaged with null. This means DnD * is finished with this component for now, meaning it should restore * state. At this point, it can use the state parameter to restore * said state, and of course return null since there's * no longer anything to store. * * @param location the drop location (as calculated by * dropLocationForPoint) or null * if there's no longer a valid drop location * @param state the state object saved earlier for this component, * or null * @param forDrop whether or not the method is being called because an * actual drop occurred * @return any saved state for this component, or null if none */ Object setDropLocation(TransferHandler.DropLocation location, Object state, boolean forDrop) { Object retVal = null; DropLocation tableLocation = (DropLocation)location; if (dropMode == DropMode.USE_SELECTION) { if (tableLocation == null) { if (!forDrop && state != null) { clearSelection(); int[] rows = ((int[][])state)[0]; int[] cols = ((int[][])state)[1]; int[] anchleads = ((int[][])state)[2]; for (int row : rows) { addRowSelectionInterval(row, row); } for (int col : cols) { addColumnSelectionInterval(col, col); } SwingUtilities2.setLeadAnchorWithoutSelection( getSelectionModel(), anchleads[1], anchleads[0]); SwingUtilities2.setLeadAnchorWithoutSelection( getColumnModel().getSelectionModel(), anchleads[3], anchleads[2]); } } else { if (dropLocation == null) { retVal = new int[][]{ getSelectedRows(), getSelectedColumns(), {getAdjustedIndex(getSelectionModel() .getAnchorSelectionIndex(), true), getAdjustedIndex(getSelectionModel() .getLeadSelectionIndex(), true), getAdjustedIndex(getColumnModel().getSelectionModel() .getAnchorSelectionIndex(), false), getAdjustedIndex(getColumnModel().getSelectionModel() .getLeadSelectionIndex(), false)}}; } else { retVal = state; } if (tableLocation.getRow() == -1) { clearSelectionAndLeadAnchor(); } else { setRowSelectionInterval(tableLocation.getRow(), tableLocation.getRow()); setColumnSelectionInterval(tableLocation.getColumn(), tableLocation.getColumn()); } } } DropLocation old = dropLocation; dropLocation = tableLocation; firePropertyChange("dropLocation", old, dropLocation); return retVal; } /** * Returns the location that this component should visually indicate * as the drop location during a DnD operation over the component, * or {@code null} if no location is to currently be shown. *

* This method is not meant for querying the drop location * from a {@code TransferHandler}, as the drop location is only * set after the {@code TransferHandler}'s canImport * has returned and has allowed for the location to be shown. *

* When this property changes, a property change event with * name "dropLocation" is fired by the component. * * @return the drop location * @see #setDropMode * @see TransferHandler#canImport(TransferHandler.TransferSupport) * @since 1.6 */ public final DropLocation getDropLocation() { return dropLocation; } /** * Specifies whether a {@code RowSorter} should be created for the * table whenever its model changes. *

* When {@code setAutoCreateRowSorter(true)} is invoked, a {@code * TableRowSorter} is immediately created and installed on the * table. While the {@code autoCreateRowSorter} property remains * {@code true}, every time the model is changed, a new {@code * TableRowSorter} is created and set as the table's row sorter. * The default value for the {@code autoCreateRowSorter} * property is {@code false}. * * @param autoCreateRowSorter whether or not a {@code RowSorter} * should be automatically created * @see javax.swing.table.TableRowSorter * @beaninfo * bound: true * preferred: true * description: Whether or not to turn on sorting by default. * @since 1.6 */ public void setAutoCreateRowSorter(boolean autoCreateRowSorter) { boolean oldValue = this.autoCreateRowSorter; this.autoCreateRowSorter = autoCreateRowSorter; if (autoCreateRowSorter) { setRowSorter(new TableRowSorter(getModel())); } firePropertyChange("autoCreateRowSorter", oldValue, autoCreateRowSorter); } /** * Returns {@code true} if whenever the model changes, a new * {@code RowSorter} should be created and installed * as the table's sorter; otherwise, returns {@code false}. * * @return true if a {@code RowSorter} should be created when * the model changes * @since 1.6 */ public boolean getAutoCreateRowSorter() { return autoCreateRowSorter; } /** * Specifies whether the selection should be updated after sorting. * If true, on sorting the selection is reset such that * the same rows, in terms of the model, remain selected. The default * is true. * * @param update whether or not to update the selection on sorting * @beaninfo * bound: true * expert: true * description: Whether or not to update the selection on sorting * @since 1.6 */ public void setUpdateSelectionOnSort(boolean update) { if (updateSelectionOnSort != update) { updateSelectionOnSort = update; firePropertyChange("updateSelectionOnSort", !update, update); } } /** * Returns true if the selection should be updated after sorting. * * @return whether to update the selection on a sort * @since 1.6 */ public boolean getUpdateSelectionOnSort() { return updateSelectionOnSort; } /** * Sets the RowSorter. RowSorter is used * to provide sorting and filtering to a JTable. *

* This method clears the selection and resets any variable row heights. *

* This method fires a PropertyChangeEvent when appropriate, * with the property name "rowSorter". For * backward-compatibility, this method fires an additional event with the * property name "sorter". *

* If the underlying model of the RowSorter differs from * that of this JTable undefined behavior will result. * * @param sorter the RowSorter; null turns * sorting off * @see javax.swing.table.TableRowSorter * @beaninfo * bound: true * description: The table's RowSorter * @since 1.6 */ public void setRowSorter(RowSorter sorter) { RowSorter oldRowSorter = null; if (sortManager != null) { oldRowSorter = sortManager.sorter; sortManager.dispose(); sortManager = null; } rowModel = null; clearSelectionAndLeadAnchor(); if (sorter != null) { sortManager = new SortManager(sorter); } resizeAndRepaint(); firePropertyChange("rowSorter", oldRowSorter, sorter); firePropertyChange("sorter", oldRowSorter, sorter); } /** * Returns the object responsible for sorting. * * @return the object responsible for sorting * @since 1.6 */ public RowSorter getRowSorter() { return (sortManager != null) ? sortManager.sorter : null; } // // Selection methods // /** * Sets the table's selection mode to allow only single selections, a single * contiguous interval, or multiple intervals. *

* Note: * JTable provides all the methods for handling * column and row selection. When setting states, * such as setSelectionMode, it not only * updates the mode for the row selection model but also sets similar * values in the selection model of the columnModel. * If you want to have the row and column selection models operating * in different modes, set them both directly. *

* Both the row and column selection models for JTable * default to using a DefaultListSelectionModel * so that JTable works the same way as the * JList. See the setSelectionMode method * in JList for details about the modes. * * @see JList#setSelectionMode * @beaninfo * description: The selection mode used by the row and column selection models. * enum: SINGLE_SELECTION ListSelectionModel.SINGLE_SELECTION * SINGLE_INTERVAL_SELECTION ListSelectionModel.SINGLE_INTERVAL_SELECTION * MULTIPLE_INTERVAL_SELECTION ListSelectionModel.MULTIPLE_INTERVAL_SELECTION */ public void setSelectionMode(int selectionMode) { clearSelection(); getSelectionModel().setSelectionMode(selectionMode); getColumnModel().getSelectionModel().setSelectionMode(selectionMode); } /** * Sets whether the rows in this model can be selected. * * @param rowSelectionAllowed true if this model will allow row selection * @see #getRowSelectionAllowed * @beaninfo * bound: true * attribute: visualUpdate true * description: If true, an entire row is selected for each selected cell. */ public void setRowSelectionAllowed(boolean rowSelectionAllowed) { boolean old = this.rowSelectionAllowed; this.rowSelectionAllowed = rowSelectionAllowed; if (old != rowSelectionAllowed) { repaint(); } firePropertyChange("rowSelectionAllowed", old, rowSelectionAllowed); } /** * Returns true if rows can be selected. * * @return true if rows can be selected, otherwise false * @see #setRowSelectionAllowed */ public boolean getRowSelectionAllowed() { return rowSelectionAllowed; } /** * Sets whether the columns in this model can be selected. * * @param columnSelectionAllowed true if this model will allow column selection * @see #getColumnSelectionAllowed * @beaninfo * bound: true * attribute: visualUpdate true * description: If true, an entire column is selected for each selected cell. */ public void setColumnSelectionAllowed(boolean columnSelectionAllowed) { boolean old = columnModel.getColumnSelectionAllowed(); columnModel.setColumnSelectionAllowed(columnSelectionAllowed); if (old != columnSelectionAllowed) { repaint(); } firePropertyChange("columnSelectionAllowed", old, columnSelectionAllowed); } /** * Returns true if columns can be selected. * * @return true if columns can be selected, otherwise false * @see #setColumnSelectionAllowed */ public boolean getColumnSelectionAllowed() { return columnModel.getColumnSelectionAllowed(); } /** * Sets whether this table allows both a column selection and a * row selection to exist simultaneously. When set, * the table treats the intersection of the row and column selection * models as the selected cells. Override isCellSelected to * change this default behavior. This method is equivalent to setting * both the rowSelectionAllowed property and * columnSelectionAllowed property of the * columnModel to the supplied value. * * @param cellSelectionEnabled true if simultaneous row and column * selection is allowed * @see #getCellSelectionEnabled * @see #isCellSelected * @beaninfo * bound: true * attribute: visualUpdate true * description: Select a rectangular region of cells rather than * rows or columns. */ public void setCellSelectionEnabled(boolean cellSelectionEnabled) { setRowSelectionAllowed(cellSelectionEnabled); setColumnSelectionAllowed(cellSelectionEnabled); boolean old = this.cellSelectionEnabled; this.cellSelectionEnabled = cellSelectionEnabled; firePropertyChange("cellSelectionEnabled", old, cellSelectionEnabled); } /** * Returns true if both row and column selection models are enabled. * Equivalent to getRowSelectionAllowed() && * getColumnSelectionAllowed(). * * @return true if both row and column selection models are enabled * * @see #setCellSelectionEnabled */ public boolean getCellSelectionEnabled() { return getRowSelectionAllowed() && getColumnSelectionAllowed(); } /** * Selects all rows, columns, and cells in the table. */ public void selectAll() { // If I'm currently editing, then I should stop editing if (isEditing()) { removeEditor(); } if (getRowCount() > 0 && getColumnCount() > 0) { int oldLead; int oldAnchor; ListSelectionModel selModel; selModel = selectionModel; selModel.setValueIsAdjusting(true); oldLead = getAdjustedIndex(selModel.getLeadSelectionIndex(), true); oldAnchor = getAdjustedIndex(selModel.getAnchorSelectionIndex(), true); setRowSelectionInterval(0, getRowCount()-1); // this is done to restore the anchor and lead SwingUtilities2.setLeadAnchorWithoutSelection(selModel, oldLead, oldAnchor); selModel.setValueIsAdjusting(false); selModel = columnModel.getSelectionModel(); selModel.setValueIsAdjusting(true); oldLead = getAdjustedIndex(selModel.getLeadSelectionIndex(), false); oldAnchor = getAdjustedIndex(selModel.getAnchorSelectionIndex(), false); setColumnSelectionInterval(0, getColumnCount()-1); // this is done to restore the anchor and lead SwingUtilities2.setLeadAnchorWithoutSelection(selModel, oldLead, oldAnchor); selModel.setValueIsAdjusting(false); } } /** * Deselects all selected columns and rows. */ public void clearSelection() { selectionModel.clearSelection(); columnModel.getSelectionModel().clearSelection(); } private void clearSelectionAndLeadAnchor() { selectionModel.setValueIsAdjusting(true); columnModel.getSelectionModel().setValueIsAdjusting(true); clearSelection(); selectionModel.setAnchorSelectionIndex(-1); selectionModel.setLeadSelectionIndex(-1); columnModel.getSelectionModel().setAnchorSelectionIndex(-1); columnModel.getSelectionModel().setLeadSelectionIndex(-1); selectionModel.setValueIsAdjusting(false); columnModel.getSelectionModel().setValueIsAdjusting(false); } private int getAdjustedIndex(int index, boolean row) { int compare = row ? getRowCount() : getColumnCount(); return index < compare ? index : -1; } private int boundRow(int row) throws IllegalArgumentException { if (row < 0 || row >= getRowCount()) { throw new IllegalArgumentException("Row index out of range"); } return row; } private int boundColumn(int col) { if (col< 0 || col >= getColumnCount()) { throw new IllegalArgumentException("Column index out of range"); } return col; } /** * Selects the rows from index0 to index1, * inclusive. * * @exception IllegalArgumentException if index0 or * index1 lie outside * [0, getRowCount()-1] * @param index0 one end of the interval * @param index1 the other end of the interval */ public void setRowSelectionInterval(int index0, int index1) { selectionModel.setSelectionInterval(boundRow(index0), boundRow(index1)); } /** * Selects the columns from index0 to index1, * inclusive. * * @exception IllegalArgumentException if index0 or * index1 lie outside * [0, getColumnCount()-1] * @param index0 one end of the interval * @param index1 the other end of the interval */ public void setColumnSelectionInterval(int index0, int index1) { columnModel.getSelectionModel().setSelectionInterval(boundColumn(index0), boundColumn(index1)); } /** * Adds the rows from index0 to index1, inclusive, to * the current selection. * * @exception IllegalArgumentException if index0 or index1 * lie outside [0, getRowCount()-1] * @param index0 one end of the interval * @param index1 the other end of the interval */ public void addRowSelectionInterval(int index0, int index1) { selectionModel.addSelectionInterval(boundRow(index0), boundRow(index1)); } /** * Adds the columns from index0 to index1, * inclusive, to the current selection. * * @exception IllegalArgumentException if index0 or * index1 lie outside * [0, getColumnCount()-1] * @param index0 one end of the interval * @param index1 the other end of the interval */ public void addColumnSelectionInterval(int index0, int index1) { columnModel.getSelectionModel().addSelectionInterval(boundColumn(index0), boundColumn(index1)); } /** * Deselects the rows from index0 to index1, inclusive. * * @exception IllegalArgumentException if index0 or * index1 lie outside * [0, getRowCount()-1] * @param index0 one end of the interval * @param index1 the other end of the interval */ public void removeRowSelectionInterval(int index0, int index1) { selectionModel.removeSelectionInterval(boundRow(index0), boundRow(index1)); } /** * Deselects the columns from index0 to index1, inclusive. * * @exception IllegalArgumentException if index0 or * index1 lie outside * [0, getColumnCount()-1] * @param index0 one end of the interval * @param index1 the other end of the interval */ public void removeColumnSelectionInterval(int index0, int index1) { columnModel.getSelectionModel().removeSelectionInterval(boundColumn(index0), boundColumn(index1)); } /** * Returns the index of the first selected row, -1 if no row is selected. * @return the index of the first selected row */ public int getSelectedRow() { return selectionModel.getMinSelectionIndex(); } /** * Returns the index of the first selected column, * -1 if no column is selected. * @return the index of the first selected column */ public int getSelectedColumn() { return columnModel.getSelectionModel().getMinSelectionIndex(); } /** * Returns the indices of all selected rows. * * @return an array of integers containing the indices of all selected rows, * or an empty array if no row is selected * @see #getSelectedRow */ public int[] getSelectedRows() { int iMin = selectionModel.getMinSelectionIndex(); int iMax = selectionModel.getMaxSelectionIndex(); if ((iMin == -1) || (iMax == -1)) { return new int[0]; } int[] rvTmp = new int[1+ (iMax - iMin)]; int n = 0; for(int i = iMin; i <= iMax; i++) { if (selectionModel.isSelectedIndex(i)) { rvTmp[n++] = i; } } int[] rv = new int[n]; System.arraycopy(rvTmp, 0, rv, 0, n); return rv; } /** * Returns the indices of all selected columns. * * @return an array of integers containing the indices of all selected columns, * or an empty array if no column is selected * @see #getSelectedColumn */ public int[] getSelectedColumns() { return columnModel.getSelectedColumns(); } /** * Returns the number of selected rows. * * @return the number of selected rows, 0 if no rows are selected */ public int getSelectedRowCount() { int iMin = selectionModel.getMinSelectionIndex(); int iMax = selectionModel.getMaxSelectionIndex(); int count = 0; for(int i = iMin; i <= iMax; i++) { if (selectionModel.isSelectedIndex(i)) { count++; } } return count; } /** * Returns the number of selected columns. * * @return the number of selected columns, 0 if no columns are selected */ public int getSelectedColumnCount() { return columnModel.getSelectedColumnCount(); } /** * Returns true if the specified index is in the valid range of rows, * and the row at that index is selected. * * @return true if row is a valid index and the row at * that index is selected (where 0 is the first row) */ public boolean isRowSelected(int row) { return selectionModel.isSelectedIndex(row); } /** * Returns true if the specified index is in the valid range of columns, * and the column at that index is selected. * * @param column the column in the column model * @return true if column is a valid index and the column at * that index is selected (where 0 is the first column) */ public boolean isColumnSelected(int column) { return columnModel.getSelectionModel().isSelectedIndex(column); } /** * Returns true if the specified indices are in the valid range of rows * and columns and the cell at the specified position is selected. * @param row the row being queried * @param column the column being queried * * @return true if row and column are valid indices * and the cell at index (row, column) is selected, * where the first row and first column are at index 0 */ public boolean isCellSelected(int row, int column) { if (!getRowSelectionAllowed() && !getColumnSelectionAllowed()) { return false; } return (!getRowSelectionAllowed() || isRowSelected(row)) && (!getColumnSelectionAllowed() || isColumnSelected(column)); } private void changeSelectionModel(ListSelectionModel sm, int index, boolean toggle, boolean extend, boolean selected, int anchor, boolean anchorSelected) { if (extend) { if (toggle) { if (anchorSelected) { sm.addSelectionInterval(anchor, index); } else { sm.removeSelectionInterval(anchor, index); // this is a Windows-only behavior that we want for file lists if (Boolean.TRUE == getClientProperty("Table.isFileList")) { sm.addSelectionInterval(index, index); sm.setAnchorSelectionIndex(anchor); } } } else { sm.setSelectionInterval(anchor, index); } } else { if (toggle) { if (selected) { sm.removeSelectionInterval(index, index); } else { sm.addSelectionInterval(index, index); } } else { sm.setSelectionInterval(index, index); } } } /** * Updates the selection models of the table, depending on the state of the * two flags: toggle and extend. Most changes * to the selection that are the result of keyboard or mouse events received * by the UI are channeled through this method so that the behavior may be * overridden by a subclass. Some UIs may need more functionality than * this method provides, such as when manipulating the lead for discontiguous * selection, and may not call into this method for some selection changes. *

* This implementation uses the following conventions: *

* @param rowIndex affects the selection at row * @param columnIndex affects the selection at column * @param toggle see description above * @param extend if true, extend the current selection * * @since 1.3 */ public void changeSelection(int rowIndex, int columnIndex, boolean toggle, boolean extend) { ListSelectionModel rsm = getSelectionModel(); ListSelectionModel csm = getColumnModel().getSelectionModel(); int anchorRow = getAdjustedIndex(rsm.getAnchorSelectionIndex(), true); int anchorCol = getAdjustedIndex(csm.getAnchorSelectionIndex(), false); boolean anchorSelected = true; if (anchorRow == -1) { if (getRowCount() > 0) { anchorRow = 0; } anchorSelected = false; } if (anchorCol == -1) { if (getColumnCount() > 0) { anchorCol = 0; } anchorSelected = false; } // Check the selection here rather than in each selection model. // This is significant in cell selection mode if we are supposed // to be toggling the selection. In this case it is better to // ensure that the cell's selection state will indeed be changed. // If this were done in the code for the selection model it // might leave a cell in selection state if the row was // selected but the column was not - as it would toggle them both. boolean selected = isCellSelected(rowIndex, columnIndex); anchorSelected = anchorSelected && isCellSelected(anchorRow, anchorCol); changeSelectionModel(csm, columnIndex, toggle, extend, selected, anchorCol, anchorSelected); changeSelectionModel(rsm, rowIndex, toggle, extend, selected, anchorRow, anchorSelected); // Scroll after changing the selection as blit scrolling is immediate, // so that if we cause the repaint after the scroll we end up painting // everything! if (getAutoscrolls()) { Rectangle cellRect = getCellRect(rowIndex, columnIndex, false); if (cellRect != null) { scrollRectToVisible(cellRect); } } } /** * Returns the foreground color for selected cells. * * @return the Color object for the foreground property * @see #setSelectionForeground * @see #setSelectionBackground */ public Color getSelectionForeground() { return selectionForeground; } /** * Sets the foreground color for selected cells. Cell renderers * can use this color to render text and graphics for selected * cells. *

* The default value of this property is defined by the look * and feel implementation. *

* This is a JavaBeans bound property. * * @param selectionForeground the Color to use in the foreground * for selected list items * @see #getSelectionForeground * @see #setSelectionBackground * @see #setForeground * @see #setBackground * @see #setFont * @beaninfo * bound: true * description: A default foreground color for selected cells. */ public void setSelectionForeground(Color selectionForeground) { Color old = this.selectionForeground; this.selectionForeground = selectionForeground; firePropertyChange("selectionForeground", old, selectionForeground); repaint(); } /** * Returns the background color for selected cells. * * @return the Color used for the background of selected list items * @see #setSelectionBackground * @see #setSelectionForeground */ public Color getSelectionBackground() { return selectionBackground; } /** * Sets the background color for selected cells. Cell renderers * can use this color to the fill selected cells. *

* The default value of this property is defined by the look * and feel implementation. *

* This is a JavaBeans bound property. * * @param selectionBackground the Color to use for the background * of selected cells * @see #getSelectionBackground * @see #setSelectionForeground * @see #setForeground * @see #setBackground * @see #setFont * @beaninfo * bound: true * description: A default background color for selected cells. */ public void setSelectionBackground(Color selectionBackground) { Color old = this.selectionBackground; this.selectionBackground = selectionBackground; firePropertyChange("selectionBackground", old, selectionBackground); repaint(); } /** * Returns the TableColumn object for the column in the table * whose identifier is equal to identifier, when compared using * equals. * * @return the TableColumn object that matches the identifier * @exception IllegalArgumentException if identifier is null or no TableColumn has this identifier * * @param identifier the identifier object */ public TableColumn getColumn(Object identifier) { TableColumnModel cm = getColumnModel(); int columnIndex = cm.getColumnIndex(identifier); return cm.getColumn(columnIndex); } // // Informally implement the TableModel interface. // /** * Maps the index of the column in the view at * viewColumnIndex to the index of the column * in the table model. Returns the index of the corresponding * column in the model. If viewColumnIndex * is less than zero, returns viewColumnIndex. * * @param viewColumnIndex the index of the column in the view * @return the index of the corresponding column in the model * * @see #convertColumnIndexToView */ public int convertColumnIndexToModel(int viewColumnIndex) { return SwingUtilities2.convertColumnIndexToModel( getColumnModel(), viewColumnIndex); } /** * Maps the index of the column in the table model at * modelColumnIndex to the index of the column * in the view. Returns the index of the * corresponding column in the view; returns -1 if this column is not * being displayed. If modelColumnIndex is less than zero, * returns modelColumnIndex. * * @param modelColumnIndex the index of the column in the model * @return the index of the corresponding column in the view * * @see #convertColumnIndexToModel */ public int convertColumnIndexToView(int modelColumnIndex) { return SwingUtilities2.convertColumnIndexToView( getColumnModel(), modelColumnIndex); } /** * Maps the index of the row in terms of the * TableModel to the view. If the contents of the * model are not sorted the model and view indices are the same. * * @param modelRowIndex the index of the row in terms of the model * @return the index of the corresponding row in the view, or -1 if * the row isn't visible * @throws IndexOutOfBoundsException if sorting is enabled and passed an * index outside the number of rows of the TableModel * @see javax.swing.table.TableRowSorter * @since 1.6 */ public int convertRowIndexToView(int modelRowIndex) { RowSorter sorter = getRowSorter(); if (sorter != null) { return sorter.convertRowIndexToView(modelRowIndex); } return modelRowIndex; } /** * Maps the index of the row in terms of the view to the * underlying TableModel. If the contents of the * model are not sorted the model and view indices are the same. * * @param viewRowIndex the index of the row in the view * @return the index of the corresponding row in the model * @throws IndexOutOfBoundsException if sorting is enabled and passed an * index outside the range of the JTable as * determined by the method getRowCount * @see javax.swing.table.TableRowSorter * @see #getRowCount * @since 1.6 */ public int convertRowIndexToModel(int viewRowIndex) { RowSorter sorter = getRowSorter(); if (sorter != null) { return sorter.convertRowIndexToModel(viewRowIndex); } return viewRowIndex; } /** * Returns the number of rows that can be shown in the * JTable, given unlimited space. If a * RowSorter with a filter has been specified, the * number of rows returned may differ from that of the underlying * TableModel. * * @return the number of rows shown in the JTable * @see #getColumnCount */ public int getRowCount() { RowSorter sorter = getRowSorter(); if (sorter != null) { return sorter.getViewRowCount(); } return getModel().getRowCount(); } /** * Returns the number of columns in the column model. Note that this may * be different from the number of columns in the table model. * * @return the number of columns in the table * @see #getRowCount * @see #removeColumn */ public int getColumnCount() { return getColumnModel().getColumnCount(); } /** * Returns the name of the column appearing in the view at * column position column. * * @param column the column in the view being queried * @return the name of the column at position column in the view where the first column is column 0 */ public String getColumnName(int column) { return getModel().getColumnName(convertColumnIndexToModel(column)); } /** * Returns the type of the column appearing in the view at * column position column. * * @param column the column in the view being queried * @return the type of the column at position column * in the view where the first column is column 0 */ public Class getColumnClass(int column) { return getModel().getColumnClass(convertColumnIndexToModel(column)); } /** * Returns the cell value at row and column. *

* Note: The column is specified in the table view's display * order, and not in the TableModel's column * order. This is an important distinction because as the * user rearranges the columns in the table, * the column at a given index in the view will change. * Meanwhile the user's actions never affect the model's * column ordering. * * @param row the row whose value is to be queried * @param column the column whose value is to be queried * @return the Object at the specified cell */ public Object getValueAt(int row, int column) { return getModel().getValueAt(convertRowIndexToModel(row), convertColumnIndexToModel(column)); } /** * Sets the value for the cell in the table model at row * and column. *

* Note: The column is specified in the table view's display * order, and not in the TableModel's column * order. This is an important distinction because as the * user rearranges the columns in the table, * the column at a given index in the view will change. * Meanwhile the user's actions never affect the model's * column ordering. * * aValue is the new value. * * @param aValue the new value * @param row the row of the cell to be changed * @param column the column of the cell to be changed * @see #getValueAt */ public void setValueAt(Object aValue, int row, int column) { getModel().setValueAt(aValue, convertRowIndexToModel(row), convertColumnIndexToModel(column)); } /** * Returns true if the cell at row and column * is editable. Otherwise, invoking setValueAt on the cell * will have no effect. *

* Note: The column is specified in the table view's display * order, and not in the TableModel's column * order. This is an important distinction because as the * user rearranges the columns in the table, * the column at a given index in the view will change. * Meanwhile the user's actions never affect the model's * column ordering. * * * @param row the row whose value is to be queried * @param column the column whose value is to be queried * @return true if the cell is editable * @see #setValueAt */ public boolean isCellEditable(int row, int column) { return getModel().isCellEditable(convertRowIndexToModel(row), convertColumnIndexToModel(column)); } // // Adding and removing columns in the view // /** * Appends aColumn to the end of the array of columns held by * this JTable's column model. * If the column name of aColumn is null, * sets the column name of aColumn to the name * returned by getModel().getColumnName(). *

* To add a column to this JTable to display the * modelColumn'th column of data in the model with a * given width, cellRenderer, * and cellEditor you can use: *

     *
     *      addColumn(new TableColumn(modelColumn, width, cellRenderer, cellEditor));
     *
     *  
* [Any of the TableColumn constructors can be used * instead of this one.] * The model column number is stored inside the TableColumn * and is used during rendering and editing to locate the appropriates * data values in the model. The model column number does not change * when columns are reordered in the view. * * @param aColumn the TableColumn to be added * @see #removeColumn */ public void addColumn(TableColumn aColumn) { if (aColumn.getHeaderValue() == null) { int modelColumn = aColumn.getModelIndex(); String columnName = getModel().getColumnName(modelColumn); aColumn.setHeaderValue(columnName); } getColumnModel().addColumn(aColumn); } /** * Removes aColumn from this JTable's * array of columns. Note: this method does not remove the column * of data from the model; it just removes the TableColumn * that was responsible for displaying it. * * @param aColumn the TableColumn to be removed * @see #addColumn */ public void removeColumn(TableColumn aColumn) { getColumnModel().removeColumn(aColumn); } /** * Moves the column column to the position currently * occupied by the column targetColumn in the view. * The old column at targetColumn is * shifted left or right to make room. * * @param column the index of column to be moved * @param targetColumn the new index of the column */ public void moveColumn(int column, int targetColumn) { getColumnModel().moveColumn(column, targetColumn); } // // Cover methods for various models and helper methods // /** * Returns the index of the column that point lies in, * or -1 if the result is not in the range * [0, getColumnCount()-1]. * * @param point the location of interest * @return the index of the column that point lies in, * or -1 if the result is not in the range * [0, getColumnCount()-1] * @see #rowAtPoint */ public int columnAtPoint(Point point) { int x = point.x; if( !getComponentOrientation().isLeftToRight() ) { x = getWidth() - x - 1; } return getColumnModel().getColumnIndexAtX(x); } /** * Returns the index of the row that point lies in, * or -1 if the result is not in the range * [0, getRowCount()-1]. * * @param point the location of interest * @return the index of the row that point lies in, * or -1 if the result is not in the range * [0, getRowCount()-1] * @see #columnAtPoint */ public int rowAtPoint(Point point) { int y = point.y; int result = (rowModel == null) ? y/getRowHeight() : rowModel.getIndex(y); if (result < 0) { return -1; } else if (result >= getRowCount()) { return -1; } else { return result; } } /** * Returns a rectangle for the cell that lies at the intersection of * row and column. * If includeSpacing is true then the value returned * has the full height and width of the row and column * specified. If it is false, the returned rectangle is inset by the * intercell spacing to return the true bounds of the rendering or * editing component as it will be set during rendering. *

* If the column index is valid but the row index is less * than zero the method returns a rectangle with the * y and height values set appropriately * and the x and width values both set * to zero. In general, when either the row or column indices indicate a * cell outside the appropriate range, the method returns a rectangle * depicting the closest edge of the closest cell that is within * the table's range. When both row and column indices are out * of range the returned rectangle covers the closest * point of the closest cell. *

* In all cases, calculations that use this method to calculate * results along one axis will not fail because of anomalies in * calculations along the other axis. When the cell is not valid * the includeSpacing parameter is ignored. * * @param row the row index where the desired cell * is located * @param column the column index where the desired cell * is located in the display; this is not * necessarily the same as the column index * in the data model for the table; the * {@link #convertColumnIndexToView(int)} * method may be used to convert a data * model column index to a display * column index * @param includeSpacing if false, return the true cell bounds - * computed by subtracting the intercell * spacing from the height and widths of * the column and row models * * @return the rectangle containing the cell at location * row,column * @see #getIntercellSpacing */ public Rectangle getCellRect(int row, int column, boolean includeSpacing) { Rectangle r = new Rectangle(); boolean valid = true; if (row < 0) { // y = height = 0; valid = false; } else if (row >= getRowCount()) { r.y = getHeight(); valid = false; } else { r.height = getRowHeight(row); r.y = (rowModel == null) ? row * r.height : rowModel.getPosition(row); } if (column < 0) { if( !getComponentOrientation().isLeftToRight() ) { r.x = getWidth(); } // otherwise, x = width = 0; valid = false; } else if (column >= getColumnCount()) { if( getComponentOrientation().isLeftToRight() ) { r.x = getWidth(); } // otherwise, x = width = 0; valid = false; } else { TableColumnModel cm = getColumnModel(); if( getComponentOrientation().isLeftToRight() ) { for(int i = 0; i < column; i++) { r.x += cm.getColumn(i).getWidth(); } } else { for(int i = cm.getColumnCount()-1; i > column; i--) { r.x += cm.getColumn(i).getWidth(); } } r.width = cm.getColumn(column).getWidth(); } if (valid && !includeSpacing) { // Bound the margins by their associated dimensions to prevent // returning bounds with negative dimensions. int rm = Math.min(getRowMargin(), r.height); int cm = Math.min(getColumnModel().getColumnMargin(), r.width); // This is not the same as grow(), it rounds differently. r.setBounds(r.x + cm/2, r.y + rm/2, r.width - cm, r.height - rm); } return r; } private int viewIndexForColumn(TableColumn aColumn) { TableColumnModel cm = getColumnModel(); for (int column = 0; column < cm.getColumnCount(); column++) { if (cm.getColumn(column) == aColumn) { return column; } } return -1; } /** * Causes this table to lay out its rows and columns. Overridden so * that columns can be resized to accommodate a change in the size of * a containing parent. * Resizes one or more of the columns in the table * so that the total width of all of this JTable's * columns is equal to the width of the table. *

* Before the layout begins the method gets the * resizingColumn of the tableHeader. * When the method is called as a result of the resizing of an enclosing window, * the resizingColumn is null. This means that resizing * has taken place "outside" the JTable and the change - * or "delta" - should be distributed to all of the columns regardless * of this JTable's automatic resize mode. *

* If the resizingColumn is not null, it is one of * the columns in the table that has changed size rather than * the table itself. In this case the auto-resize modes govern * the way the extra (or deficit) space is distributed * amongst the available columns. *

* The modes are: *

*

* Note: When a JTable makes adjustments * to the widths of the columns it respects their minimum and * maximum values absolutely. It is therefore possible that, * even after this method is called, the total width of the columns * is still not equal to the width of the table. When this happens * the JTable does not put itself * in AUTO_RESIZE_OFF mode to bring up a scroll bar, or break other * commitments of its current auto-resize mode -- instead it * allows its bounds to be set larger (or smaller) than the total of the * column minimum or maximum, meaning, either that there * will not be enough room to display all of the columns, or that the * columns will not fill the JTable's bounds. * These respectively, result in the clipping of some columns * or an area being painted in the JTable's * background color during painting. *

* The mechanism for distributing the delta amongst the available * columns is provided in a private method in the JTable * class: *

     *   adjustSizes(long targetSize, final Resizable3 r, boolean inverse)
     * 
* an explanation of which is provided in the following section. * Resizable3 is a private * interface that allows any data structure containing a collection * of elements with a size, preferred size, maximum size and minimum size * to have its elements manipulated by the algorithm. * *

Distributing the delta

* *

Overview

*

* Call "DELTA" the difference between the target size and the * sum of the preferred sizes of the elements in r. The individual * sizes are calculated by taking the original preferred * sizes and adding a share of the DELTA - that share being based on * how far each preferred size is from its limiting bound (minimum or * maximum). * *

Definition

*

* Call the individual constraints min[i], max[i], and pref[i]. *

* Call their respective sums: MIN, MAX, and PREF. *

* Each new size will be calculated using: * *

     *          size[i] = pref[i] + delta[i]
     * 
* where each individual delta[i] is calculated according to: *

* If (DELTA < 0) we are in shrink mode where: * *

     *                        DELTA
     *          delta[i] = ------------ * (pref[i] - min[i])
     *                     (PREF - MIN)
     * 
* If (DELTA > 0) we are in expand mode where: * *
     *                        DELTA
     *          delta[i] = ------------ * (max[i] - pref[i])
     *                      (MAX - PREF)
     * 
*

* The overall effect is that the total size moves that same percentage, * k, towards the total minimum or maximum and that percentage guarantees * accommodation of the required space, DELTA. * *

Details

*

* Naive evaluation of the formulae presented here would be subject to * the aggregated rounding errors caused by doing this operation in finite * precision (using ints). To deal with this, the multiplying factor above, * is constantly recalculated and this takes account of the rounding * errors in the previous iterations. The result is an algorithm that * produces a set of integers whose values exactly sum to the supplied * targetSize, and does so by spreading the rounding * errors evenly over the given elements. * *

When the MAX and MIN bounds are hit

*

* When targetSize is outside the [MIN, MAX] range, * the algorithm sets all sizes to their appropriate limiting value * (maximum or minimum). * */ public void doLayout() { TableColumn resizingColumn = getResizingColumn(); if (resizingColumn == null) { setWidthsFromPreferredWidths(false); } else { // JTable behaves like a layout manger - but one in which the // user can come along and dictate how big one of the children // (columns) is supposed to be. // A column has been resized and JTable may need to distribute // any overall delta to other columns, according to the resize mode. int columnIndex = viewIndexForColumn(resizingColumn); int delta = getWidth() - getColumnModel().getTotalColumnWidth(); accommodateDelta(columnIndex, delta); delta = getWidth() - getColumnModel().getTotalColumnWidth(); // If the delta cannot be completely accomodated, then the // resizing column will have to take any remainder. This means // that the column is not being allowed to take the requested // width. This happens under many circumstances: For example, // AUTO_RESIZE_NEXT_COLUMN specifies that any delta be distributed // to the column after the resizing column. If one were to attempt // to resize the last column of the table, there would be no // columns after it, and hence nowhere to distribute the delta. // It would then be given entirely back to the resizing column, // preventing it from changing size. if (delta != 0) { resizingColumn.setWidth(resizingColumn.getWidth() + delta); } // At this point the JTable has to work out what preferred sizes // would have resulted in the layout the user has chosen. // Thereafter, during window resizing etc. it has to work off // the preferred sizes as usual - the idea being that, whatever // the user does, everything stays in synch and things don't jump // around. setWidthsFromPreferredWidths(true); } super.doLayout(); } private TableColumn getResizingColumn() { return (tableHeader == null) ? null : tableHeader.getResizingColumn(); } /** * Sizes the table columns to fit the available space. * @deprecated As of Swing version 1.0.3, * replaced by doLayout(). * @see #doLayout */ @Deprecated public void sizeColumnsToFit(boolean lastColumnOnly) { int oldAutoResizeMode = autoResizeMode; setAutoResizeMode(lastColumnOnly ? AUTO_RESIZE_LAST_COLUMN : AUTO_RESIZE_ALL_COLUMNS); sizeColumnsToFit(-1); setAutoResizeMode(oldAutoResizeMode); } /** * Obsolete as of Java 2 platform v1.4. Please use the * doLayout() method instead. * @param resizingColumn the column whose resizing made this adjustment * necessary or -1 if there is no such column * @see #doLayout */ public void sizeColumnsToFit(int resizingColumn) { if (resizingColumn == -1) { setWidthsFromPreferredWidths(false); } else { if (autoResizeMode == AUTO_RESIZE_OFF) { TableColumn aColumn = getColumnModel().getColumn(resizingColumn); aColumn.setPreferredWidth(aColumn.getWidth()); } else { int delta = getWidth() - getColumnModel().getTotalColumnWidth(); accommodateDelta(resizingColumn, delta); setWidthsFromPreferredWidths(true); } } } private void setWidthsFromPreferredWidths(final boolean inverse) { int totalWidth = getWidth(); int totalPreferred = getPreferredSize().width; int target = !inverse ? totalWidth : totalPreferred; final TableColumnModel cm = columnModel; Resizable3 r = new Resizable3() { public int getElementCount() { return cm.getColumnCount(); } public int getLowerBoundAt(int i) { return cm.getColumn(i).getMinWidth(); } public int getUpperBoundAt(int i) { return cm.getColumn(i).getMaxWidth(); } public int getMidPointAt(int i) { if (!inverse) { return cm.getColumn(i).getPreferredWidth(); } else { return cm.getColumn(i).getWidth(); } } public void setSizeAt(int s, int i) { if (!inverse) { cm.getColumn(i).setWidth(s); } else { cm.getColumn(i).setPreferredWidth(s); } } }; adjustSizes(target, r, inverse); } // Distribute delta over columns, as indicated by the autoresize mode. private void accommodateDelta(int resizingColumnIndex, int delta) { int columnCount = getColumnCount(); int from = resizingColumnIndex; int to; // Use the mode to determine how to absorb the changes. switch(autoResizeMode) { case AUTO_RESIZE_NEXT_COLUMN: from = from + 1; to = Math.min(from + 1, columnCount); break; case AUTO_RESIZE_SUBSEQUENT_COLUMNS: from = from + 1; to = columnCount; break; case AUTO_RESIZE_LAST_COLUMN: from = columnCount - 1; to = from + 1; break; case AUTO_RESIZE_ALL_COLUMNS: from = 0; to = columnCount; break; default: return; } final int start = from; final int end = to; final TableColumnModel cm = columnModel; Resizable3 r = new Resizable3() { public int getElementCount() { return end-start; } public int getLowerBoundAt(int i) { return cm.getColumn(i+start).getMinWidth(); } public int getUpperBoundAt(int i) { return cm.getColumn(i+start).getMaxWidth(); } public int getMidPointAt(int i) { return cm.getColumn(i+start).getWidth(); } public void setSizeAt(int s, int i) { cm.getColumn(i+start).setWidth(s); } }; int totalWidth = 0; for(int i = from; i < to; i++) { TableColumn aColumn = columnModel.getColumn(i); int input = aColumn.getWidth(); totalWidth = totalWidth + input; } adjustSizes(totalWidth + delta, r, false); } private interface Resizable2 { public int getElementCount(); public int getLowerBoundAt(int i); public int getUpperBoundAt(int i); public void setSizeAt(int newSize, int i); } private interface Resizable3 extends Resizable2 { public int getMidPointAt(int i); } private void adjustSizes(long target, final Resizable3 r, boolean inverse) { int N = r.getElementCount(); long totalPreferred = 0; for(int i = 0; i < N; i++) { totalPreferred += r.getMidPointAt(i); } Resizable2 s; if ((target < totalPreferred) == !inverse) { s = new Resizable2() { public int getElementCount() { return r.getElementCount(); } public int getLowerBoundAt(int i) { return r.getLowerBoundAt(i); } public int getUpperBoundAt(int i) { return r.getMidPointAt(i); } public void setSizeAt(int newSize, int i) { r.setSizeAt(newSize, i); } }; } else { s = new Resizable2() { public int getElementCount() { return r.getElementCount(); } public int getLowerBoundAt(int i) { return r.getMidPointAt(i); } public int getUpperBoundAt(int i) { return r.getUpperBoundAt(i); } public void setSizeAt(int newSize, int i) { r.setSizeAt(newSize, i); } }; } adjustSizes(target, s, !inverse); } private void adjustSizes(long target, Resizable2 r, boolean limitToRange) { long totalLowerBound = 0; long totalUpperBound = 0; for(int i = 0; i < r.getElementCount(); i++) { totalLowerBound += r.getLowerBoundAt(i); totalUpperBound += r.getUpperBoundAt(i); } if (limitToRange) { target = Math.min(Math.max(totalLowerBound, target), totalUpperBound); } for(int i = 0; i < r.getElementCount(); i++) { int lowerBound = r.getLowerBoundAt(i); int upperBound = r.getUpperBoundAt(i); // Check for zero. This happens when the distribution of the delta // finishes early due to a series of "fixed" entries at the end. // In this case, lowerBound == upperBound, for all subsequent terms. int newSize; if (totalLowerBound == totalUpperBound) { newSize = lowerBound; } else { double f = (double)(target - totalLowerBound)/(totalUpperBound - totalLowerBound); newSize = (int)Math.round(lowerBound+f*(upperBound - lowerBound)); // We'd need to round manually in an all integer version. // size[i] = (int)(((totalUpperBound - target) * lowerBound + // (target - totalLowerBound) * upperBound)/(totalUpperBound-totalLowerBound)); } r.setSizeAt(newSize, i); target -= newSize; totalLowerBound -= lowerBound; totalUpperBound -= upperBound; } } /** * Overrides JComponent's getToolTipText * method in order to allow the renderer's tips to be used * if it has text set. *

* Note: For JTable to properly display * tooltips of its renderers * JTable must be a registered component with the * ToolTipManager. * This is done automatically in initializeLocalVars, * but if at a later point JTable is told * setToolTipText(null) it will unregister the table * component, and no tips from renderers will display anymore. * * @see JComponent#getToolTipText */ public String getToolTipText(MouseEvent event) { String tip = null; Point p = event.getPoint(); // Locate the renderer under the event location int hitColumnIndex = columnAtPoint(p); int hitRowIndex = rowAtPoint(p); if ((hitColumnIndex != -1) && (hitRowIndex != -1)) { TableCellRenderer renderer = getCellRenderer(hitRowIndex, hitColumnIndex); Component component = prepareRenderer(renderer, hitRowIndex, hitColumnIndex); // Now have to see if the component is a JComponent before // getting the tip if (component instanceof JComponent) { // Convert the event to the renderer's coordinate system Rectangle cellRect = getCellRect(hitRowIndex, hitColumnIndex, false); p.translate(-cellRect.x, -cellRect.y); MouseEvent newEvent = new MouseEvent(component, event.getID(), event.getWhen(), event.getModifiers(), p.x, p.y, event.getXOnScreen(), event.getYOnScreen(), event.getClickCount(), event.isPopupTrigger(), MouseEvent.NOBUTTON); tip = ((JComponent)component).getToolTipText(newEvent); } } // No tip from the renderer get our own tip if (tip == null) tip = getToolTipText(); return tip; } // // Editing Support // /** * Sets whether editors in this JTable get the keyboard focus * when an editor is activated as a result of the JTable * forwarding keyboard events for a cell. * By default, this property is false, and the JTable * retains the focus unless the cell is clicked. * * @param surrendersFocusOnKeystroke true if the editor should get the focus * when keystrokes cause the editor to be * activated * * * @see #getSurrendersFocusOnKeystroke * @since 1.4 */ public void setSurrendersFocusOnKeystroke(boolean surrendersFocusOnKeystroke) { this.surrendersFocusOnKeystroke = surrendersFocusOnKeystroke; } /** * Returns true if the editor should get the focus * when keystrokes cause the editor to be activated * * @return true if the editor should get the focus * when keystrokes cause the editor to be * activated * * @see #setSurrendersFocusOnKeystroke * @since 1.4 */ public boolean getSurrendersFocusOnKeystroke() { return surrendersFocusOnKeystroke; } /** * Programmatically starts editing the cell at row and * column, if those indices are in the valid range, and * the cell at those indices is editable. * Note that this is a convenience method for * editCellAt(int, int, null). * * @param row the row to be edited * @param column the column to be edited * @return false if for any reason the cell cannot be edited, * or if the indices are invalid */ public boolean editCellAt(int row, int column) { return editCellAt(row, column, null); } /** * Programmatically starts editing the cell at row and * column, if those indices are in the valid range, and * the cell at those indices is editable. * To prevent the JTable from * editing a particular table, column or cell value, return false from * the isCellEditable method in the TableModel * interface. * * @param row the row to be edited * @param column the column to be edited * @param e event to pass into shouldSelectCell; * note that as of Java 2 platform v1.2, the call to * shouldSelectCell is no longer made * @return false if for any reason the cell cannot be edited, * or if the indices are invalid */ public boolean editCellAt(int row, int column, EventObject e){ if (cellEditor != null && !cellEditor.stopCellEditing()) { return false; } if (row < 0 || row >= getRowCount() || column < 0 || column >= getColumnCount()) { return false; } if (!isCellEditable(row, column)) return false; if (editorRemover == null) { KeyboardFocusManager fm = KeyboardFocusManager.getCurrentKeyboardFocusManager(); editorRemover = new CellEditorRemover(fm); fm.addPropertyChangeListener("permanentFocusOwner", editorRemover); } TableCellEditor editor = getCellEditor(row, column); if (editor != null && editor.isCellEditable(e)) { editorComp = prepareEditor(editor, row, column); if (editorComp == null) { removeEditor(); return false; } editorComp.setBounds(getCellRect(row, column, false)); add(editorComp); editorComp.validate(); editorComp.repaint(); setCellEditor(editor); setEditingRow(row); setEditingColumn(column); editor.addCellEditorListener(this); return true; } return false; } /** * Returns true if a cell is being edited. * * @return true if the table is editing a cell * @see #editingColumn * @see #editingRow */ public boolean isEditing() { return cellEditor != null; } /** * Returns the component that is handling the editing session. * If nothing is being edited, returns null. * * @return Component handling editing session */ public Component getEditorComponent() { return editorComp; } /** * Returns the index of the column that contains the cell currently * being edited. If nothing is being edited, returns -1. * * @return the index of the column that contains the cell currently * being edited; returns -1 if nothing being edited * @see #editingRow */ public int getEditingColumn() { return editingColumn; } /** * Returns the index of the row that contains the cell currently * being edited. If nothing is being edited, returns -1. * * @return the index of the row that contains the cell currently * being edited; returns -1 if nothing being edited * @see #editingColumn */ public int getEditingRow() { return editingRow; } // // Managing TableUI // /** * Returns the L&F object that renders this component. * * @return the TableUI object that renders this component */ public TableUI getUI() { return (TableUI)ui; } /** * Sets the L&F object that renders this component and repaints. * * @param ui the TableUI L&F object * @see UIDefaults#getUI * @beaninfo * bound: true * hidden: true * attribute: visualUpdate true * description: The UI object that implements the Component's LookAndFeel. */ public void setUI(TableUI ui) { if (this.ui != ui) { super.setUI(ui); repaint(); } } /** * Notification from the UIManager that the L&F has changed. * Replaces the current UI object with the latest version from the * UIManager. * * @see JComponent#updateUI */ public void updateUI() { // Update the UIs of the cell renderers, cell editors and header renderers. TableColumnModel cm = getColumnModel(); for(int column = 0; column < cm.getColumnCount(); column++) { TableColumn aColumn = cm.getColumn(column); SwingUtilities.updateRendererOrEditorUI(aColumn.getCellRenderer()); SwingUtilities.updateRendererOrEditorUI(aColumn.getCellEditor()); SwingUtilities.updateRendererOrEditorUI(aColumn.getHeaderRenderer()); } // Update the UIs of all the default renderers. Enumeration defaultRenderers = defaultRenderersByColumnClass.elements(); while (defaultRenderers.hasMoreElements()) { SwingUtilities.updateRendererOrEditorUI(defaultRenderers.nextElement()); } // Update the UIs of all the default editors. Enumeration defaultEditors = defaultEditorsByColumnClass.elements(); while (defaultEditors.hasMoreElements()) { SwingUtilities.updateRendererOrEditorUI(defaultEditors.nextElement()); } // Update the UI of the table header if (tableHeader != null && tableHeader.getParent() == null) { tableHeader.updateUI(); } // Update UI applied to parent ScrollPane configureEnclosingScrollPaneUI(); setUI((TableUI)UIManager.getUI(this)); } /** * Returns the suffix used to construct the name of the L&F class used to * render this component. * * @return the string "TableUI" * @see JComponent#getUIClassID * @see UIDefaults#getUI */ public String getUIClassID() { return uiClassID; } // // Managing models // /** * Sets the data model for this table to newModel and registers * with it for listener notifications from the new data model. * * @param dataModel the new data source for this table * @exception IllegalArgumentException if newModel is null * @see #getModel * @beaninfo * bound: true * description: The model that is the source of the data for this view. */ public void setModel(TableModel dataModel) { if (dataModel == null) { throw new IllegalArgumentException("Cannot set a null TableModel"); } if (this.dataModel != dataModel) { TableModel old = this.dataModel; if (old != null) { old.removeTableModelListener(this); } this.dataModel = dataModel; dataModel.addTableModelListener(this); tableChanged(new TableModelEvent(dataModel, TableModelEvent.HEADER_ROW)); firePropertyChange("model", old, dataModel); if (getAutoCreateRowSorter()) { setRowSorter(new TableRowSorter(dataModel)); } } } /** * Returns the TableModel that provides the data displayed by this * JTable. * * @return the TableModel that provides the data displayed by this JTable * @see #setModel */ public TableModel getModel() { return dataModel; } /** * Sets the column model for this table to newModel and registers * for listener notifications from the new column model. Also sets * the column model of the JTableHeader to columnModel. * * @param columnModel the new data source for this table * @exception IllegalArgumentException if columnModel is null * @see #getColumnModel * @beaninfo * bound: true * description: The object governing the way columns appear in the view. */ public void setColumnModel(TableColumnModel columnModel) { if (columnModel == null) { throw new IllegalArgumentException("Cannot set a null ColumnModel"); } TableColumnModel old = this.columnModel; if (columnModel != old) { if (old != null) { old.removeColumnModelListener(this); } this.columnModel = columnModel; columnModel.addColumnModelListener(this); // Set the column model of the header as well. if (tableHeader != null) { tableHeader.setColumnModel(columnModel); } firePropertyChange("columnModel", old, columnModel); resizeAndRepaint(); } } /** * Returns the TableColumnModel that contains all column information * of this table. * * @return the object that provides the column state of the table * @see #setColumnModel */ public TableColumnModel getColumnModel() { return columnModel; } /** * Sets the row selection model for this table to newModel * and registers for listener notifications from the new selection model. * * @param newModel the new selection model * @exception IllegalArgumentException if newModel is null * @see #getSelectionModel * @beaninfo * bound: true * description: The selection model for rows. */ public void setSelectionModel(ListSelectionModel newModel) { if (newModel == null) { throw new IllegalArgumentException("Cannot set a null SelectionModel"); } ListSelectionModel oldModel = selectionModel; if (newModel != oldModel) { if (oldModel != null) { oldModel.removeListSelectionListener(this); } selectionModel = newModel; newModel.addListSelectionListener(this); firePropertyChange("selectionModel", oldModel, newModel); repaint(); } } /** * Returns the ListSelectionModel that is used to maintain row * selection state. * * @return the object that provides row selection state, null * if row selection is not allowed * @see #setSelectionModel */ public ListSelectionModel getSelectionModel() { return selectionModel; } // // RowSorterListener // /** * RowSorterListener notification that the * RowSorter has changed in some way. * * @param e the RowSorterEvent describing the change * @throws NullPointerException if e is null * @since 1.6 */ public void sorterChanged(RowSorterEvent e) { if (e.getType() == RowSorterEvent.Type.SORT_ORDER_CHANGED) { JTableHeader header = getTableHeader(); if (header != null) { header.repaint(); } } else if (e.getType() == RowSorterEvent.Type.SORTED) { sorterChanged = true; if (!ignoreSortChange) { sortedTableChanged(e, null); } } } /** * SortManager provides support for managing the selection and variable * row heights when sorting is enabled. This information is encapsulated * into a class to avoid bulking up JTable. */ private final class SortManager { RowSorter sorter; // Selection, in terms of the model. This is lazily created // as needed. private ListSelectionModel modelSelection; private int modelLeadIndex; // Set to true while in the process of changing the selection. // If this is true the selection change is ignored. private boolean syncingSelection; // Temporary cache of selection, in terms of model. This is only used // if we don't need the full weight of modelSelection. private int[] lastModelSelection; // Heights of the rows in terms of the model. private SizeSequence modelRowSizes; SortManager(RowSorter sorter) { this.sorter = sorter; sorter.addRowSorterListener(JTable.this); } /** * Disposes any resources used by this SortManager. */ public void dispose() { if (sorter != null) { sorter.removeRowSorterListener(JTable.this); } } /** * Sets the height for a row at a specified index. */ public void setViewRowHeight(int viewIndex, int rowHeight) { if (modelRowSizes == null) { modelRowSizes = new SizeSequence(getModel().getRowCount(), getRowHeight()); } modelRowSizes.setSize(convertRowIndexToModel(viewIndex),rowHeight); } /** * Invoked when the underlying model has completely changed. */ public void allChanged() { modelLeadIndex = -1; modelSelection = null; modelRowSizes = null; } /** * Invoked when the selection, on the view, has changed. */ public void viewSelectionChanged(ListSelectionEvent e) { if (!syncingSelection && modelSelection != null) { modelSelection = null; } } /** * Invoked when either the table model has changed, or the RowSorter * has changed. This is invoked prior to notifying the sorter of the * change. */ public void prepareForChange(RowSorterEvent sortEvent, ModelChange change) { if (getUpdateSelectionOnSort()) { cacheSelection(sortEvent, change); } } /** * Updates the internal cache of the selection based on the change. */ private void cacheSelection(RowSorterEvent sortEvent, ModelChange change) { if (sortEvent != null) { // sort order changed. If modelSelection is null and filtering // is enabled we need to cache the selection in terms of the // underlying model, this will allow us to correctly restore // the selection even if rows are filtered out. if (modelSelection == null && sorter.getViewRowCount() != getModel().getRowCount()) { modelSelection = new DefaultListSelectionModel(); ListSelectionModel viewSelection = getSelectionModel(); int min = viewSelection.getMinSelectionIndex(); int max = viewSelection.getMaxSelectionIndex(); int modelIndex; for (int viewIndex = min; viewIndex <= max; viewIndex++) { if (viewSelection.isSelectedIndex(viewIndex)) { modelIndex = convertRowIndexToModel( sortEvent, viewIndex); if (modelIndex != -1) { modelSelection.addSelectionInterval( modelIndex, modelIndex); } } } modelIndex = convertRowIndexToModel(sortEvent, viewSelection.getLeadSelectionIndex()); SwingUtilities2.setLeadAnchorWithoutSelection( modelSelection, modelIndex, modelIndex); } else if (modelSelection == null) { // Sorting changed, haven't cached selection in terms // of model and no filtering. Temporarily cache selection. cacheModelSelection(sortEvent); } } else if (change.allRowsChanged) { // All the rows have changed, chuck any cached selection. modelSelection = null; } else if (modelSelection != null) { // Table changed, reflect changes in cached selection model. switch(change.type) { case TableModelEvent.DELETE: modelSelection.removeIndexInterval(change.startModelIndex, change.endModelIndex); break; case TableModelEvent.INSERT: modelSelection.insertIndexInterval(change.startModelIndex, change.length, true); break; default: break; } } else { // table changed, but haven't cached rows, temporarily // cache them. cacheModelSelection(null); } } private void cacheModelSelection(RowSorterEvent sortEvent) { lastModelSelection = convertSelectionToModel(sortEvent); modelLeadIndex = convertRowIndexToModel(sortEvent, selectionModel.getLeadSelectionIndex()); } /** * Inovked when either the table has changed or the sorter has changed * and after the sorter has been notified. If necessary this will * reapply the selection and variable row heights. */ public void processChange(RowSorterEvent sortEvent, ModelChange change, boolean sorterChanged) { if (change != null) { if (change.allRowsChanged) { modelRowSizes = null; rowModel = null; } else if (modelRowSizes != null) { if (change.type == TableModelEvent.INSERT) { modelRowSizes.insertEntries(change.startModelIndex, change.endModelIndex - change.startModelIndex + 1, getRowHeight()); } else if (change.type == TableModelEvent.DELETE) { modelRowSizes.removeEntries(change.startModelIndex, change.endModelIndex - change.startModelIndex +1 ); } } } if (sorterChanged) { setViewRowHeightsFromModel(); restoreSelection(change); } } /** * Resets the variable row heights in terms of the view from * that of the variable row heights in terms of the model. */ private void setViewRowHeightsFromModel() { if (modelRowSizes != null) { rowModel.setSizes(getRowCount(), getRowHeight()); for (int viewIndex = getRowCount() - 1; viewIndex >= 0; viewIndex--) { int modelIndex = convertRowIndexToModel(viewIndex); rowModel.setSize(viewIndex, modelRowSizes.getSize(modelIndex)); } } } /** * Restores the selection from that in terms of the model. */ private void restoreSelection(ModelChange change) { syncingSelection = true; if (lastModelSelection != null) { restoreSortingSelection(lastModelSelection, modelLeadIndex, change); lastModelSelection = null; } else if (modelSelection != null) { ListSelectionModel viewSelection = getSelectionModel(); viewSelection.setValueIsAdjusting(true); viewSelection.clearSelection(); int min = modelSelection.getMinSelectionIndex(); int max = modelSelection.getMaxSelectionIndex(); int viewIndex; for (int modelIndex = min; modelIndex <= max; modelIndex++) { if (modelSelection.isSelectedIndex(modelIndex)) { viewIndex = convertRowIndexToView(modelIndex); if (viewIndex != -1) { viewSelection.addSelectionInterval(viewIndex, viewIndex); } } } // Restore the lead int viewLeadIndex = modelSelection.getLeadSelectionIndex(); if (viewLeadIndex != -1 && !modelSelection.isSelectionEmpty()) { viewLeadIndex = convertRowIndexToView(viewLeadIndex); } SwingUtilities2.setLeadAnchorWithoutSelection( viewSelection, viewLeadIndex, viewLeadIndex); viewSelection.setValueIsAdjusting(false); } syncingSelection = false; } } /** * ModelChange is used when sorting to restore state, it corresponds * to data from a TableModelEvent. The values are precalculated as * they are used extensively. */ private final class ModelChange { // Starting index of the change, in terms of the model int startModelIndex; // Ending index of the change, in terms of the model int endModelIndex; // Type of change int type; // Number of rows in the model int modelRowCount; // The event that triggered this. TableModelEvent event; // Length of the change (end - start + 1) int length; // True if the event indicates all the contents have changed boolean allRowsChanged; ModelChange(TableModelEvent e) { startModelIndex = Math.max(0, e.getFirstRow()); endModelIndex = e.getLastRow(); modelRowCount = getModel().getRowCount(); if (endModelIndex < 0) { endModelIndex = Math.max(0, modelRowCount - 1); } length = endModelIndex - startModelIndex + 1; type = e.getType(); event = e; allRowsChanged = (e.getLastRow() == Integer.MAX_VALUE); } } /** * Invoked when sorterChanged is invoked, or * when tableChanged is invoked and sorting is enabled. */ private void sortedTableChanged(RowSorterEvent sortedEvent, TableModelEvent e) { int editingModelIndex = -1; ModelChange change = (e != null) ? new ModelChange(e) : null; if ((change == null || !change.allRowsChanged) && this.editingRow != -1) { editingModelIndex = convertRowIndexToModel(sortedEvent, this.editingRow); } sortManager.prepareForChange(sortedEvent, change); if (e != null) { if (change.type == TableModelEvent.UPDATE) { repaintSortedRows(change); } notifySorter(change); if (change.type != TableModelEvent.UPDATE) { // If the Sorter is unsorted we will not have received // notification, force treating insert/delete as a change. sorterChanged = true; } } else { sorterChanged = true; } sortManager.processChange(sortedEvent, change, sorterChanged); if (sorterChanged) { // Update the editing row if (this.editingRow != -1) { int newIndex = (editingModelIndex == -1) ? -1 : convertRowIndexToView(editingModelIndex,change); restoreSortingEditingRow(newIndex); } // And handle the appropriate repainting. if (e == null || change.type != TableModelEvent.UPDATE) { resizeAndRepaint(); } } // Check if lead/anchor need to be reset. if (change != null && change.allRowsChanged) { clearSelectionAndLeadAnchor(); resizeAndRepaint(); } } /** * Repaints the sort of sorted rows in response to a TableModelEvent. */ private void repaintSortedRows(ModelChange change) { if (change.startModelIndex > change.endModelIndex || change.startModelIndex + 10 < change.endModelIndex) { // Too much has changed, punt repaint(); return; } int eventColumn = change.event.getColumn(); int columnViewIndex = eventColumn; if (columnViewIndex == TableModelEvent.ALL_COLUMNS) { columnViewIndex = 0; } else { columnViewIndex = convertColumnIndexToView(columnViewIndex); if (columnViewIndex == -1) { return; } } int modelIndex = change.startModelIndex; while (modelIndex <= change.endModelIndex) { int viewIndex = convertRowIndexToView(modelIndex++); if (viewIndex != -1) { Rectangle dirty = getCellRect(viewIndex, columnViewIndex, false); int x = dirty.x; int w = dirty.width; if (eventColumn == TableModelEvent.ALL_COLUMNS) { x = 0; w = getWidth(); } repaint(x, dirty.y, w, dirty.height); } } } /** * Restores the selection after a model event/sort order changes. * All coordinates are in terms of the model. */ private void restoreSortingSelection(int[] selection, int lead, ModelChange change) { // Convert the selection from model to view for (int i = selection.length - 1; i >= 0; i--) { selection[i] = convertRowIndexToView(selection[i], change); } lead = convertRowIndexToView(lead, change); // Check for the common case of no change in selection for 1 row if (selection.length == 0 || (selection.length == 1 && selection[0] == getSelectedRow())) { return; } // And apply the new selection selectionModel.setValueIsAdjusting(true); selectionModel.clearSelection(); for (int i = selection.length - 1; i >= 0; i--) { if (selection[i] != -1) { selectionModel.addSelectionInterval(selection[i], selection[i]); } } SwingUtilities2.setLeadAnchorWithoutSelection( selectionModel, lead, lead); selectionModel.setValueIsAdjusting(false); } /** * Restores the editing row after a model event/sort order change. * * @param editingRow new index of the editingRow, in terms of the view */ private void restoreSortingEditingRow(int editingRow) { if (editingRow == -1) { // Editing row no longer being shown, cancel editing TableCellEditor editor = getCellEditor(); if (editor != null) { // First try and cancel editor.cancelCellEditing(); if (getCellEditor() != null) { // CellEditor didn't cede control, forcefully // remove it removeEditor(); } } } else { // Repositioning handled in BasicTableUI this.editingRow = editingRow; repaint(); } } /** * Notifies the sorter of a change in the underlying model. */ private void notifySorter(ModelChange change) { try { ignoreSortChange = true; sorterChanged = false; switch(change.type) { case TableModelEvent.UPDATE: if (change.event.getLastRow() == Integer.MAX_VALUE) { sortManager.sorter.allRowsChanged(); } else if (change.event.getColumn() == TableModelEvent.ALL_COLUMNS) { sortManager.sorter.rowsUpdated(change.startModelIndex, change.endModelIndex); } else { sortManager.sorter.rowsUpdated(change.startModelIndex, change.endModelIndex, change.event.getColumn()); } break; case TableModelEvent.INSERT: sortManager.sorter.rowsInserted(change.startModelIndex, change.endModelIndex); break; case TableModelEvent.DELETE: sortManager.sorter.rowsDeleted(change.startModelIndex, change.endModelIndex); break; } } finally { ignoreSortChange = false; } } /** * Converts a model index to view index. This is called when the * sorter or model changes and sorting is enabled. * * @param change describes the TableModelEvent that initiated the change; * will be null if called as the result of a sort */ private int convertRowIndexToView(int modelIndex, ModelChange change) { if (modelIndex < 0) { return -1; } if (change != null && modelIndex >= change.startModelIndex) { if (change.type == TableModelEvent.INSERT) { if (modelIndex + change.length >= change.modelRowCount) { return -1; } return sortManager.sorter.convertRowIndexToView( modelIndex + change.length); } else if (change.type == TableModelEvent.DELETE) { if (modelIndex <= change.endModelIndex) { // deleted return -1; } else { if (modelIndex - change.length >= change.modelRowCount) { return -1; } return sortManager.sorter.convertRowIndexToView( modelIndex - change.length); } } // else, updated } if (modelIndex >= getModel().getRowCount()) { return -1; } return sortManager.sorter.convertRowIndexToView(modelIndex); } /** * Converts the selection to model coordinates. This is used when * the model changes or the sorter changes. */ private int[] convertSelectionToModel(RowSorterEvent e) { int[] selection = getSelectedRows(); for (int i = selection.length - 1; i >= 0; i--) { selection[i] = convertRowIndexToModel(e, selection[i]); } return selection; } private int convertRowIndexToModel(RowSorterEvent e, int viewIndex) { if (e != null) { if (e.getPreviousRowCount() == 0) { return viewIndex; } // range checking handled by RowSorterEvent return e.convertPreviousRowIndexToModel(viewIndex); } // Make sure the viewIndex is valid if (viewIndex < 0 || viewIndex >= getRowCount()) { return -1; } return convertRowIndexToModel(viewIndex); } // // Implementing TableModelListener interface // /** * Invoked when this table's TableModel generates * a TableModelEvent. * The TableModelEvent should be constructed in the * coordinate system of the model; the appropriate mapping to the * view coordinate system is performed by this JTable * when it receives the event. *

* Application code will not use these methods explicitly, they * are used internally by JTable. *

* Note that as of 1.3, this method clears the selection, if any. */ public void tableChanged(TableModelEvent e) { if (e == null || e.getFirstRow() == TableModelEvent.HEADER_ROW) { // The whole thing changed clearSelectionAndLeadAnchor(); rowModel = null; if (sortManager != null) { try { ignoreSortChange = true; sortManager.sorter.modelStructureChanged(); } finally { ignoreSortChange = false; } sortManager.allChanged(); } if (getAutoCreateColumnsFromModel()) { // This will effect invalidation of the JTable and JTableHeader. createDefaultColumnsFromModel(); return; } resizeAndRepaint(); return; } if (sortManager != null) { sortedTableChanged(null, e); return; } // The totalRowHeight calculated below will be incorrect if // there are variable height rows. Repaint the visible region, // but don't return as a revalidate may be necessary as well. if (rowModel != null) { repaint(); } if (e.getType() == TableModelEvent.INSERT) { tableRowsInserted(e); return; } if (e.getType() == TableModelEvent.DELETE) { tableRowsDeleted(e); return; } int modelColumn = e.getColumn(); int start = e.getFirstRow(); int end = e.getLastRow(); Rectangle dirtyRegion; if (modelColumn == TableModelEvent.ALL_COLUMNS) { // 1 or more rows changed dirtyRegion = new Rectangle(0, start * getRowHeight(), getColumnModel().getTotalColumnWidth(), 0); } else { // A cell or column of cells has changed. // Unlike the rest of the methods in the JTable, the TableModelEvent // uses the coordinate system of the model instead of the view. // This is the only place in the JTable where this "reverse mapping" // is used. int column = convertColumnIndexToView(modelColumn); dirtyRegion = getCellRect(start, column, false); } // Now adjust the height of the dirty region according to the value of "end". // Check for Integer.MAX_VALUE as this will cause an overflow. if (end != Integer.MAX_VALUE) { dirtyRegion.height = (end-start+1)*getRowHeight(); repaint(dirtyRegion.x, dirtyRegion.y, dirtyRegion.width, dirtyRegion.height); } // In fact, if the end is Integer.MAX_VALUE we need to revalidate anyway // because the scrollbar may need repainting. else { clearSelectionAndLeadAnchor(); resizeAndRepaint(); rowModel = null; } } /* * Invoked when rows have been inserted into the table. *

* Application code will not use these methods explicitly, they * are used internally by JTable. * * @param e the TableModelEvent encapsulating the insertion */ private void tableRowsInserted(TableModelEvent e) { int start = e.getFirstRow(); int end = e.getLastRow(); if (start < 0) { start = 0; } if (end < 0) { end = getRowCount()-1; } // Adjust the selection to account for the new rows. int length = end - start + 1; selectionModel.insertIndexInterval(start, length, true); // If we have variable height rows, adjust the row model. if (rowModel != null) { rowModel.insertEntries(start, length, getRowHeight()); } int rh = getRowHeight() ; Rectangle drawRect = new Rectangle(0, start * rh, getColumnModel().getTotalColumnWidth(), (getRowCount()-start) * rh); revalidate(); // PENDING(milne) revalidate calls repaint() if parent is a ScrollPane // repaint still required in the unusual case where there is no ScrollPane repaint(drawRect); } /* * Invoked when rows have been removed from the table. *

* Application code will not use these methods explicitly, they * are used internally by JTable. * * @param e the TableModelEvent encapsulating the deletion */ private void tableRowsDeleted(TableModelEvent e) { int start = e.getFirstRow(); int end = e.getLastRow(); if (start < 0) { start = 0; } if (end < 0) { end = getRowCount()-1; } int deletedCount = end - start + 1; int previousRowCount = getRowCount() + deletedCount; // Adjust the selection to account for the new rows selectionModel.removeIndexInterval(start, end); // If we have variable height rows, adjust the row model. if (rowModel != null) { rowModel.removeEntries(start, deletedCount); } int rh = getRowHeight(); Rectangle drawRect = new Rectangle(0, start * rh, getColumnModel().getTotalColumnWidth(), (previousRowCount - start) * rh); revalidate(); // PENDING(milne) revalidate calls repaint() if parent is a ScrollPane // repaint still required in the unusual case where there is no ScrollPane repaint(drawRect); } // // Implementing TableColumnModelListener interface // /** * Invoked when a column is added to the table column model. *

* Application code will not use these methods explicitly, they * are used internally by JTable. * * @see TableColumnModelListener */ public void columnAdded(TableColumnModelEvent e) { // If I'm currently editing, then I should stop editing if (isEditing()) { removeEditor(); } resizeAndRepaint(); } /** * Invoked when a column is removed from the table column model. *

* Application code will not use these methods explicitly, they * are used internally by JTable. * * @see TableColumnModelListener */ public void columnRemoved(TableColumnModelEvent e) { // If I'm currently editing, then I should stop editing if (isEditing()) { removeEditor(); } resizeAndRepaint(); } /** * Invoked when a column is repositioned. If a cell is being * edited, then editing is stopped and the cell is redrawn. *

* Application code will not use these methods explicitly, they * are used internally by JTable. * * @param e the event received * @see TableColumnModelListener */ public void columnMoved(TableColumnModelEvent e) { if (isEditing() && !getCellEditor().stopCellEditing()) { getCellEditor().cancelCellEditing(); } repaint(); } /** * Invoked when a column is moved due to a margin change. * If a cell is being edited, then editing is stopped and the cell * is redrawn. *

* Application code will not use these methods explicitly, they * are used internally by JTable. * * @param e the event received * @see TableColumnModelListener */ public void columnMarginChanged(ChangeEvent e) { if (isEditing() && !getCellEditor().stopCellEditing()) { getCellEditor().cancelCellEditing(); } TableColumn resizingColumn = getResizingColumn(); // Need to do this here, before the parent's // layout manager calls getPreferredSize(). if (resizingColumn != null && autoResizeMode == AUTO_RESIZE_OFF) { resizingColumn.setPreferredWidth(resizingColumn.getWidth()); } resizeAndRepaint(); } private int limit(int i, int a, int b) { return Math.min(b, Math.max(i, a)); } /** * Invoked when the selection model of the TableColumnModel * is changed. *

* Application code will not use these methods explicitly, they * are used internally by JTable. * * @param e the event received * @see TableColumnModelListener */ public void columnSelectionChanged(ListSelectionEvent e) { boolean isAdjusting = e.getValueIsAdjusting(); if (columnSelectionAdjusting && !isAdjusting) { // The assumption is that when the model is no longer adjusting // we will have already gotten all the changes, and therefore // don't need to do an additional paint. columnSelectionAdjusting = false; return; } columnSelectionAdjusting = isAdjusting; // The getCellRect() call will fail unless there is at least one row. if (getRowCount() <= 0 || getColumnCount() <= 0) { return; } int firstIndex = limit(e.getFirstIndex(), 0, getColumnCount()-1); int lastIndex = limit(e.getLastIndex(), 0, getColumnCount()-1); int minRow = 0; int maxRow = getRowCount() - 1; if (getRowSelectionAllowed()) { minRow = selectionModel.getMinSelectionIndex(); maxRow = selectionModel.getMaxSelectionIndex(); int leadRow = getAdjustedIndex(selectionModel.getLeadSelectionIndex(), true); if (minRow == -1 || maxRow == -1) { if (leadRow == -1) { // nothing to repaint, return return; } // only thing to repaint is the lead minRow = maxRow = leadRow; } else { // We need to consider more than just the range between // the min and max selected index. The lead row, which could // be outside this range, should be considered also. if (leadRow != -1) { minRow = Math.min(minRow, leadRow); maxRow = Math.max(maxRow, leadRow); } } } Rectangle firstColumnRect = getCellRect(minRow, firstIndex, false); Rectangle lastColumnRect = getCellRect(maxRow, lastIndex, false); Rectangle dirtyRegion = firstColumnRect.union(lastColumnRect); repaint(dirtyRegion); } // // Implementing ListSelectionListener interface // /** * Invoked when the row selection changes -- repaints to show the new * selection. *

* Application code will not use these methods explicitly, they * are used internally by JTable. * * @param e the event received * @see ListSelectionListener */ public void valueChanged(ListSelectionEvent e) { if (sortManager != null) { sortManager.viewSelectionChanged(e); } boolean isAdjusting = e.getValueIsAdjusting(); if (rowSelectionAdjusting && !isAdjusting) { // The assumption is that when the model is no longer adjusting // we will have already gotten all the changes, and therefore // don't need to do an additional paint. rowSelectionAdjusting = false; return; } rowSelectionAdjusting = isAdjusting; // The getCellRect() calls will fail unless there is at least one column. if (getRowCount() <= 0 || getColumnCount() <= 0) { return; } int firstIndex = limit(e.getFirstIndex(), 0, getRowCount()-1); int lastIndex = limit(e.getLastIndex(), 0, getRowCount()-1); Rectangle firstRowRect = getCellRect(firstIndex, 0, false); Rectangle lastRowRect = getCellRect(lastIndex, getColumnCount()-1, false); Rectangle dirtyRegion = firstRowRect.union(lastRowRect); repaint(dirtyRegion); } // // Implementing the CellEditorListener interface // /** * Invoked when editing is finished. The changes are saved and the * editor is discarded. *

* Application code will not use these methods explicitly, they * are used internally by JTable. * * @param e the event received * @see CellEditorListener */ public void editingStopped(ChangeEvent e) { // Take in the new value TableCellEditor editor = getCellEditor(); if (editor != null) { Object value = editor.getCellEditorValue(); setValueAt(value, editingRow, editingColumn); removeEditor(); } } /** * Invoked when editing is canceled. The editor object is discarded * and the cell is rendered once again. *

* Application code will not use these methods explicitly, they * are used internally by JTable. * * @param e the event received * @see CellEditorListener */ public void editingCanceled(ChangeEvent e) { removeEditor(); } // // Implementing the Scrollable interface // /** * Sets the preferred size of the viewport for this table. * * @param size a Dimension object specifying the preferredSize of a * JViewport whose view is this table * @see Scrollable#getPreferredScrollableViewportSize * @beaninfo * description: The preferred size of the viewport. */ public void setPreferredScrollableViewportSize(Dimension size) { preferredViewportSize = size; } /** * Returns the preferred size of the viewport for this table. * * @return a Dimension object containing the preferredSize of the JViewport * which displays this table * @see Scrollable#getPreferredScrollableViewportSize */ public Dimension getPreferredScrollableViewportSize() { return preferredViewportSize; } /** * Returns the scroll increment (in pixels) that completely exposes one new * row or column (depending on the orientation). *

* This method is called each time the user requests a unit scroll. * * @param visibleRect the view area visible within the viewport * @param orientation either SwingConstants.VERTICAL * or SwingConstants.HORIZONTAL * @param direction less than zero to scroll up/left, * greater than zero for down/right * @return the "unit" increment for scrolling in the specified direction * @see Scrollable#getScrollableUnitIncrement */ public int getScrollableUnitIncrement(Rectangle visibleRect, int orientation, int direction) { int leadingRow; int leadingCol; Rectangle leadingCellRect; int leadingVisibleEdge; int leadingCellEdge; int leadingCellSize; leadingRow = getLeadingRow(visibleRect); leadingCol = getLeadingCol(visibleRect); if (orientation == SwingConstants.VERTICAL && leadingRow < 0) { // Couldn't find leading row - return some default value return getRowHeight(); } else if (orientation == SwingConstants.HORIZONTAL && leadingCol < 0) { // Couldn't find leading col - return some default value return 100; } // Note that it's possible for one of leadingCol or leadingRow to be // -1, depending on the orientation. This is okay, as getCellRect() // still provides enough information to calculate the unit increment. leadingCellRect = getCellRect(leadingRow, leadingCol, true); leadingVisibleEdge = leadingEdge(visibleRect, orientation); leadingCellEdge = leadingEdge(leadingCellRect, orientation); if (orientation == SwingConstants.VERTICAL) { leadingCellSize = leadingCellRect.height; } else { leadingCellSize = leadingCellRect.width; } // 4 cases: // #1: Leading cell fully visible, reveal next cell // #2: Leading cell fully visible, hide leading cell // #3: Leading cell partially visible, hide rest of leading cell // #4: Leading cell partially visible, reveal rest of leading cell if (leadingVisibleEdge == leadingCellEdge) { // Leading cell is fully // visible // Case #1: Reveal previous cell if (direction < 0) { int retVal = 0; if (orientation == SwingConstants.VERTICAL) { // Loop past any zero-height rows while (--leadingRow >= 0) { retVal = getRowHeight(leadingRow); if (retVal != 0) { break; } } } else { // HORIZONTAL // Loop past any zero-width cols while (--leadingCol >= 0) { retVal = getCellRect(leadingRow, leadingCol, true).width; if (retVal != 0) { break; } } } return retVal; } else { // Case #2: hide leading cell return leadingCellSize; } } else { // Leading cell is partially hidden // Compute visible, hidden portions int hiddenAmt = Math.abs(leadingVisibleEdge - leadingCellEdge); int visibleAmt = leadingCellSize - hiddenAmt; if (direction > 0) { // Case #3: hide showing portion of leading cell return visibleAmt; } else { // Case #4: reveal hidden portion of leading cell return hiddenAmt; } } } /** * Returns visibleRect.height or * visibleRect.width, * depending on this table's orientation. Note that as of Swing 1.1.1 * (Java 2 v 1.2.2) the value * returned will ensure that the viewport is cleanly aligned on * a row boundary. * * @return visibleRect.height or * visibleRect.width * per the orientation * @see Scrollable#getScrollableBlockIncrement */ public int getScrollableBlockIncrement(Rectangle visibleRect, int orientation, int direction) { if (getRowCount() == 0) { // Short-circuit empty table model if (SwingConstants.VERTICAL == orientation) { int rh = getRowHeight(); return (rh > 0) ? Math.max(rh, (visibleRect.height / rh) * rh) : visibleRect.height; } else { return visibleRect.width; } } // Shortcut for vertical scrolling of a table w/ uniform row height if (null == rowModel && SwingConstants.VERTICAL == orientation) { int row = rowAtPoint(visibleRect.getLocation()); assert row != -1; int col = columnAtPoint(visibleRect.getLocation()); Rectangle cellRect = getCellRect(row, col, true); if (cellRect.y == visibleRect.y) { int rh = getRowHeight(); assert rh > 0; return Math.max(rh, (visibleRect.height / rh) * rh); } } if (direction < 0) { return getPreviousBlockIncrement(visibleRect, orientation); } else { return getNextBlockIncrement(visibleRect, orientation); } } /** * Called to get the block increment for upward scrolling in cases of * horizontal scrolling, or for vertical scrolling of a table with * variable row heights. */ private int getPreviousBlockIncrement(Rectangle visibleRect, int orientation) { // Measure back from visible leading edge // If we hit the cell on its leading edge, it becomes the leading cell. // Else, use following cell int row; int col; int newEdge; Point newCellLoc; int visibleLeadingEdge = leadingEdge(visibleRect, orientation); boolean leftToRight = getComponentOrientation().isLeftToRight(); int newLeadingEdge; // Roughly determine the new leading edge by measuring back from the // leading visible edge by the size of the visible rect, and find the // cell there. if (orientation == SwingConstants.VERTICAL) { newEdge = visibleLeadingEdge - visibleRect.height; int x = visibleRect.x + (leftToRight ? 0 : visibleRect.width); newCellLoc = new Point(x, newEdge); } else if (leftToRight) { newEdge = visibleLeadingEdge - visibleRect.width; newCellLoc = new Point(newEdge, visibleRect.y); } else { // Horizontal, right-to-left newEdge = visibleLeadingEdge + visibleRect.width; newCellLoc = new Point(newEdge - 1, visibleRect.y); } row = rowAtPoint(newCellLoc); col = columnAtPoint(newCellLoc); // If we're measuring past the beginning of the table, we get an invalid // cell. Just go to the beginning of the table in this case. if (orientation == SwingConstants.VERTICAL & row < 0) { newLeadingEdge = 0; } else if (orientation == SwingConstants.HORIZONTAL & col < 0) { if (leftToRight) { newLeadingEdge = 0; } else { newLeadingEdge = getWidth(); } } else { // Refine our measurement Rectangle newCellRect = getCellRect(row, col, true); int newCellLeadingEdge = leadingEdge(newCellRect, orientation); int newCellTrailingEdge = trailingEdge(newCellRect, orientation); // Usually, we hit in the middle of newCell, and want to scroll to // the beginning of the cell after newCell. But there are a // couple corner cases where we want to scroll to the beginning of // newCell itself. These cases are: // 1) newCell is so large that it ends at or extends into the // visibleRect (newCell is the leading cell, or is adjacent to // the leading cell) // 2) newEdge happens to fall right on the beginning of a cell // Case 1 if ((orientation == SwingConstants.VERTICAL || leftToRight) && (newCellTrailingEdge >= visibleLeadingEdge)) { newLeadingEdge = newCellLeadingEdge; } else if (orientation == SwingConstants.HORIZONTAL && !leftToRight && newCellTrailingEdge <= visibleLeadingEdge) { newLeadingEdge = newCellLeadingEdge; } // Case 2: else if (newEdge == newCellLeadingEdge) { newLeadingEdge = newCellLeadingEdge; } // Common case: scroll to cell after newCell else { newLeadingEdge = newCellTrailingEdge; } } return Math.abs(visibleLeadingEdge - newLeadingEdge); } /** * Called to get the block increment for downward scrolling in cases of * horizontal scrolling, or for vertical scrolling of a table with * variable row heights. */ private int getNextBlockIncrement(Rectangle visibleRect, int orientation) { // Find the cell at the trailing edge. Return the distance to put // that cell at the leading edge. int trailingRow = getTrailingRow(visibleRect); int trailingCol = getTrailingCol(visibleRect); Rectangle cellRect; boolean cellFillsVis; int cellLeadingEdge; int cellTrailingEdge; int newLeadingEdge; int visibleLeadingEdge = leadingEdge(visibleRect, orientation); // If we couldn't find trailing cell, just return the size of the // visibleRect. Note that, for instance, we don't need the // trailingCol to proceed if we're scrolling vertically, because // cellRect will still fill in the required dimensions. This would // happen if we're scrolling vertically, and the table is not wide // enough to fill the visibleRect. if (orientation == SwingConstants.VERTICAL && trailingRow < 0) { return visibleRect.height; } else if (orientation == SwingConstants.HORIZONTAL && trailingCol < 0) { return visibleRect.width; } cellRect = getCellRect(trailingRow, trailingCol, true); cellLeadingEdge = leadingEdge(cellRect, orientation); cellTrailingEdge = trailingEdge(cellRect, orientation); if (orientation == SwingConstants.VERTICAL || getComponentOrientation().isLeftToRight()) { cellFillsVis = cellLeadingEdge <= visibleLeadingEdge; } else { // Horizontal, right-to-left cellFillsVis = cellLeadingEdge >= visibleLeadingEdge; } if (cellFillsVis) { // The visibleRect contains a single large cell. Scroll to the end // of this cell, so the following cell is the first cell. newLeadingEdge = cellTrailingEdge; } else if (cellTrailingEdge == trailingEdge(visibleRect, orientation)) { // The trailing cell happens to end right at the end of the // visibleRect. Again, scroll to the beginning of the next cell. newLeadingEdge = cellTrailingEdge; } else { // Common case: the trailing cell is partially visible, and isn't // big enough to take up the entire visibleRect. Scroll so it // becomes the leading cell. newLeadingEdge = cellLeadingEdge; } return Math.abs(newLeadingEdge - visibleLeadingEdge); } /* * Return the row at the top of the visibleRect * * May return -1 */ private int getLeadingRow(Rectangle visibleRect) { Point leadingPoint; if (getComponentOrientation().isLeftToRight()) { leadingPoint = new Point(visibleRect.x, visibleRect.y); } else { leadingPoint = new Point(visibleRect.x + visibleRect.width - 1, visibleRect.y); } return rowAtPoint(leadingPoint); } /* * Return the column at the leading edge of the visibleRect. * * May return -1 */ private int getLeadingCol(Rectangle visibleRect) { Point leadingPoint; if (getComponentOrientation().isLeftToRight()) { leadingPoint = new Point(visibleRect.x, visibleRect.y); } else { leadingPoint = new Point(visibleRect.x + visibleRect.width - 1, visibleRect.y); } return columnAtPoint(leadingPoint); } /* * Return the row at the bottom of the visibleRect. * * May return -1 */ private int getTrailingRow(Rectangle visibleRect) { Point trailingPoint; if (getComponentOrientation().isLeftToRight()) { trailingPoint = new Point(visibleRect.x, visibleRect.y + visibleRect.height - 1); } else { trailingPoint = new Point(visibleRect.x + visibleRect.width - 1, visibleRect.y + visibleRect.height - 1); } return rowAtPoint(trailingPoint); } /* * Return the column at the trailing edge of the visibleRect. * * May return -1 */ private int getTrailingCol(Rectangle visibleRect) { Point trailingPoint; if (getComponentOrientation().isLeftToRight()) { trailingPoint = new Point(visibleRect.x + visibleRect.width - 1, visibleRect.y); } else { trailingPoint = new Point(visibleRect.x, visibleRect.y); } return columnAtPoint(trailingPoint); } /* * Returns the leading edge ("beginning") of the given Rectangle. * For VERTICAL, this is the top, for left-to-right, the left side, and for * right-to-left, the right side. */ private int leadingEdge(Rectangle rect, int orientation) { if (orientation == SwingConstants.VERTICAL) { return rect.y; } else if (getComponentOrientation().isLeftToRight()) { return rect.x; } else { // Horizontal, right-to-left return rect.x + rect.width; } } /* * Returns the trailing edge ("end") of the given Rectangle. * For VERTICAL, this is the bottom, for left-to-right, the right side, and * for right-to-left, the left side. */ private int trailingEdge(Rectangle rect, int orientation) { if (orientation == SwingConstants.VERTICAL) { return rect.y + rect.height; } else if (getComponentOrientation().isLeftToRight()) { return rect.x + rect.width; } else { // Horizontal, right-to-left return rect.x; } } /** * Returns false if autoResizeMode is set to * AUTO_RESIZE_OFF, which indicates that the * width of the viewport does not determine the width * of the table. Otherwise returns true. * * @return false if autoResizeMode is set * to AUTO_RESIZE_OFF, otherwise returns true * @see Scrollable#getScrollableTracksViewportWidth */ public boolean getScrollableTracksViewportWidth() { return !(autoResizeMode == AUTO_RESIZE_OFF); } /** * Returns {@code false} to indicate that the height of the viewport does * not determine the height of the table, unless * {@code getFillsViewportHeight} is {@code true} and the preferred height * of the table is smaller than the viewport's height. * * @return {@code false} unless {@code getFillsViewportHeight} is * {@code true} and the table needs to be stretched to fill * the viewport * @see Scrollable#getScrollableTracksViewportHeight * @see #setFillsViewportHeight * @see #getFillsViewportHeight */ public boolean getScrollableTracksViewportHeight() { Container parent = SwingUtilities.getUnwrappedParent(this); return getFillsViewportHeight() && parent instanceof JViewport && parent.getHeight() > getPreferredSize().height; } /** * Sets whether or not this table is always made large enough * to fill the height of an enclosing viewport. If the preferred * height of the table is smaller than the viewport, then the table * will be stretched to fill the viewport. In other words, this * ensures the table is never smaller than the viewport. * The default for this property is {@code false}. * * @param fillsViewportHeight whether or not this table is always * made large enough to fill the height of an enclosing * viewport * @see #getFillsViewportHeight * @see #getScrollableTracksViewportHeight * @since 1.6 * @beaninfo * bound: true * description: Whether or not this table is always made large enough * to fill the height of an enclosing viewport */ public void setFillsViewportHeight(boolean fillsViewportHeight) { boolean old = this.fillsViewportHeight; this.fillsViewportHeight = fillsViewportHeight; resizeAndRepaint(); firePropertyChange("fillsViewportHeight", old, fillsViewportHeight); } /** * Returns whether or not this table is always made large enough * to fill the height of an enclosing viewport. * * @return whether or not this table is always made large enough * to fill the height of an enclosing viewport * @see #setFillsViewportHeight * @since 1.6 */ public boolean getFillsViewportHeight() { return fillsViewportHeight; } // // Protected Methods // protected boolean processKeyBinding(KeyStroke ks, KeyEvent e, int condition, boolean pressed) { boolean retValue = super.processKeyBinding(ks, e, condition, pressed); // Start editing when a key is typed. UI classes can disable this behavior // by setting the client property JTable.autoStartsEdit to Boolean.FALSE. if (!retValue && condition == WHEN_ANCESTOR_OF_FOCUSED_COMPONENT && isFocusOwner() && !Boolean.FALSE.equals(getClientProperty("JTable.autoStartsEdit"))) { // We do not have a binding for the event. Component editorComponent = getEditorComponent(); if (editorComponent == null) { // Only attempt to install the editor on a KEY_PRESSED, if (e == null || e.getID() != KeyEvent.KEY_PRESSED) { return false; } // Don't start when just a modifier is pressed int code = e.getKeyCode(); if (code == KeyEvent.VK_SHIFT || code == KeyEvent.VK_CONTROL || code == KeyEvent.VK_ALT) { return false; } // Try to install the editor int leadRow = getSelectionModel().getLeadSelectionIndex(); int leadColumn = getColumnModel().getSelectionModel(). getLeadSelectionIndex(); if (leadRow != -1 && leadColumn != -1 && !isEditing()) { if (!editCellAt(leadRow, leadColumn, e)) { return false; } } editorComponent = getEditorComponent(); if (editorComponent == null) { return false; } } // If the editorComponent is a JComponent, pass the event to it. if (editorComponent instanceof JComponent) { retValue = ((JComponent)editorComponent).processKeyBinding (ks, e, WHEN_FOCUSED, pressed); // If we have started an editor as a result of the user // pressing a key and the surrendersFocusOnKeystroke property // is true, give the focus to the new editor. if (getSurrendersFocusOnKeystroke()) { editorComponent.requestFocus(); } } } return retValue; } private void setLazyValue(Hashtable h, Class c, String s) { h.put(c, new SwingLazyValue(s)); } private void setLazyRenderer(Class c, String s) { setLazyValue(defaultRenderersByColumnClass, c, s); } /** * Creates default cell renderers for objects, numbers, doubles, dates, * booleans, and icons. * @see javax.swing.table.DefaultTableCellRenderer * */ protected void createDefaultRenderers() { defaultRenderersByColumnClass = new UIDefaults(8, 0.75f); // Objects setLazyRenderer(Object.class, "javax.swing.table.DefaultTableCellRenderer$UIResource"); // Numbers setLazyRenderer(Number.class, "javax.swing.JTable$NumberRenderer"); // Doubles and Floats setLazyRenderer(Float.class, "javax.swing.JTable$DoubleRenderer"); setLazyRenderer(Double.class, "javax.swing.JTable$DoubleRenderer"); // Dates setLazyRenderer(Date.class, "javax.swing.JTable$DateRenderer"); // Icons and ImageIcons setLazyRenderer(Icon.class, "javax.swing.JTable$IconRenderer"); setLazyRenderer(ImageIcon.class, "javax.swing.JTable$IconRenderer"); // Booleans setLazyRenderer(Boolean.class, "javax.swing.JTable$BooleanRenderer"); } /** * Default Renderers **/ static class NumberRenderer extends DefaultTableCellRenderer.UIResource { public NumberRenderer() { super(); setHorizontalAlignment(JLabel.RIGHT); } } static class DoubleRenderer extends NumberRenderer { NumberFormat formatter; public DoubleRenderer() { super(); } public void setValue(Object value) { if (formatter == null) { formatter = NumberFormat.getInstance(); } setText((value == null) ? "" : formatter.format(value)); } } static class DateRenderer extends DefaultTableCellRenderer.UIResource { DateFormat formatter; public DateRenderer() { super(); } public void setValue(Object value) { if (formatter==null) { formatter = DateFormat.getDateInstance(); } setText((value == null) ? "" : formatter.format(value)); } } static class IconRenderer extends DefaultTableCellRenderer.UIResource { public IconRenderer() { super(); setHorizontalAlignment(JLabel.CENTER); } public void setValue(Object value) { setIcon((value instanceof Icon) ? (Icon)value : null); } } static class BooleanRenderer extends JCheckBox implements TableCellRenderer, UIResource { private static final Border noFocusBorder = new EmptyBorder(1, 1, 1, 1); public BooleanRenderer() { super(); setHorizontalAlignment(JLabel.CENTER); setBorderPainted(true); } public Component getTableCellRendererComponent(JTable table, Object value, boolean isSelected, boolean hasFocus, int row, int column) { if (isSelected) { setForeground(table.getSelectionForeground()); super.setBackground(table.getSelectionBackground()); } else { setForeground(table.getForeground()); setBackground(table.getBackground()); } setSelected((value != null && ((Boolean)value).booleanValue())); if (hasFocus) { setBorder(UIManager.getBorder("Table.focusCellHighlightBorder")); } else { setBorder(noFocusBorder); } return this; } } private void setLazyEditor(Class c, String s) { setLazyValue(defaultEditorsByColumnClass, c, s); } /** * Creates default cell editors for objects, numbers, and boolean values. * @see DefaultCellEditor */ protected void createDefaultEditors() { defaultEditorsByColumnClass = new UIDefaults(3, 0.75f); // Objects setLazyEditor(Object.class, "javax.swing.JTable$GenericEditor"); // Numbers setLazyEditor(Number.class, "javax.swing.JTable$NumberEditor"); // Booleans setLazyEditor(Boolean.class, "javax.swing.JTable$BooleanEditor"); } /** * Default Editors */ static class GenericEditor extends DefaultCellEditor { Class[] argTypes = new Class[]{String.class}; java.lang.reflect.Constructor constructor; Object value; public GenericEditor() { super(new JTextField()); getComponent().setName("Table.editor"); } public boolean stopCellEditing() { String s = (String)super.getCellEditorValue(); // Here we are dealing with the case where a user // has deleted the string value in a cell, possibly // after a failed validation. Return null, so that // they have the option to replace the value with // null or use escape to restore the original. // For Strings, return "" for backward compatibility. try { if ("".equals(s)) { if (constructor.getDeclaringClass() == String.class) { value = s; } return super.stopCellEditing(); } SwingUtilities2.checkAccess(constructor.getModifiers()); value = constructor.newInstance(new Object[]{s}); } catch (Exception e) { ((JComponent)getComponent()).setBorder(new LineBorder(Color.red)); return false; } return super.stopCellEditing(); } public Component getTableCellEditorComponent(JTable table, Object value, boolean isSelected, int row, int column) { this.value = null; ((JComponent)getComponent()).setBorder(new LineBorder(Color.black)); try { Class type = table.getColumnClass(column); // Since our obligation is to produce a value which is // assignable for the required type it is OK to use the // String constructor for columns which are declared // to contain Objects. A String is an Object. if (type == Object.class) { type = String.class; } ReflectUtil.checkPackageAccess(type); SwingUtilities2.checkAccess(type.getModifiers()); constructor = type.getConstructor(argTypes); } catch (Exception e) { return null; } return super.getTableCellEditorComponent(table, value, isSelected, row, column); } public Object getCellEditorValue() { return value; } } static class NumberEditor extends GenericEditor { public NumberEditor() { ((JTextField)getComponent()).setHorizontalAlignment(JTextField.RIGHT); } } static class BooleanEditor extends DefaultCellEditor { public BooleanEditor() { super(new JCheckBox()); JCheckBox checkBox = (JCheckBox)getComponent(); checkBox.setHorizontalAlignment(JCheckBox.CENTER); } } /** * Initializes table properties to their default values. */ protected void initializeLocalVars() { updateSelectionOnSort = true; setOpaque(true); createDefaultRenderers(); createDefaultEditors(); setTableHeader(createDefaultTableHeader()); setShowGrid(true); setAutoResizeMode(AUTO_RESIZE_SUBSEQUENT_COLUMNS); setRowHeight(16); isRowHeightSet = false; setRowMargin(1); setRowSelectionAllowed(true); setCellEditor(null); setEditingColumn(-1); setEditingRow(-1); setSurrendersFocusOnKeystroke(false); setPreferredScrollableViewportSize(new Dimension(450, 400)); // I'm registered to do tool tips so we can draw tips for the renderers ToolTipManager toolTipManager = ToolTipManager.sharedInstance(); toolTipManager.registerComponent(this); setAutoscrolls(true); } /** * Returns the default table model object, which is * a DefaultTableModel. A subclass can override this * method to return a different table model object. * * @return the default table model object * @see javax.swing.table.DefaultTableModel */ protected TableModel createDefaultDataModel() { return new DefaultTableModel(); } /** * Returns the default column model object, which is * a DefaultTableColumnModel. A subclass can override this * method to return a different column model object. * * @return the default column model object * @see javax.swing.table.DefaultTableColumnModel */ protected TableColumnModel createDefaultColumnModel() { return new DefaultTableColumnModel(); } /** * Returns the default selection model object, which is * a DefaultListSelectionModel. A subclass can override this * method to return a different selection model object. * * @return the default selection model object * @see javax.swing.DefaultListSelectionModel */ protected ListSelectionModel createDefaultSelectionModel() { return new DefaultListSelectionModel(); } /** * Returns the default table header object, which is * a JTableHeader. A subclass can override this * method to return a different table header object. * * @return the default table header object * @see javax.swing.table.JTableHeader */ protected JTableHeader createDefaultTableHeader() { return new JTableHeader(columnModel); } /** * Equivalent to revalidate followed by repaint. */ protected void resizeAndRepaint() { revalidate(); repaint(); } /** * Returns the active cell editor, which is {@code null} if the table * is not currently editing. * * @return the {@code TableCellEditor} that does the editing, * or {@code null} if the table is not currently editing. * @see #cellEditor * @see #getCellEditor(int, int) */ public TableCellEditor getCellEditor() { return cellEditor; } /** * Sets the active cell editor. * * @param anEditor the active cell editor * @see #cellEditor * @beaninfo * bound: true * description: The table's active cell editor. */ public void setCellEditor(TableCellEditor anEditor) { TableCellEditor oldEditor = cellEditor; cellEditor = anEditor; firePropertyChange("tableCellEditor", oldEditor, anEditor); } /** * Sets the editingColumn variable. * @param aColumn the column of the cell to be edited * * @see #editingColumn */ public void setEditingColumn(int aColumn) { editingColumn = aColumn; } /** * Sets the editingRow variable. * @param aRow the row of the cell to be edited * * @see #editingRow */ public void setEditingRow(int aRow) { editingRow = aRow; } /** * Returns an appropriate renderer for the cell specified by this row and * column. If the TableColumn for this column has a non-null * renderer, returns that. If not, finds the class of the data in * this column (using getColumnClass) * and returns the default renderer for this type of data. *

* Note: * Throughout the table package, the internal implementations always * use this method to provide renderers so that this default behavior * can be safely overridden by a subclass. * * @param row the row of the cell to render, where 0 is the first row * @param column the column of the cell to render, * where 0 is the first column * @return the assigned renderer; if null * returns the default renderer * for this type of object * @see javax.swing.table.DefaultTableCellRenderer * @see javax.swing.table.TableColumn#setCellRenderer * @see #setDefaultRenderer */ public TableCellRenderer getCellRenderer(int row, int column) { TableColumn tableColumn = getColumnModel().getColumn(column); TableCellRenderer renderer = tableColumn.getCellRenderer(); if (renderer == null) { renderer = getDefaultRenderer(getColumnClass(column)); } return renderer; } /** * Prepares the renderer by querying the data model for the * value and selection state * of the cell at row, column. * Returns the component (may be a Component * or a JComponent) under the event location. *

* During a printing operation, this method will configure the * renderer without indicating selection or focus, to prevent * them from appearing in the printed output. To do other * customizations based on whether or not the table is being * printed, you can check the value of * {@link javax.swing.JComponent#isPaintingForPrint()}, either here * or within custom renderers. *

* Note: * Throughout the table package, the internal implementations always * use this method to prepare renderers so that this default behavior * can be safely overridden by a subclass. * * @param renderer the TableCellRenderer to prepare * @param row the row of the cell to render, where 0 is the first row * @param column the column of the cell to render, * where 0 is the first column * @return the Component under the event location */ public Component prepareRenderer(TableCellRenderer renderer, int row, int column) { Object value = getValueAt(row, column); boolean isSelected = false; boolean hasFocus = false; // Only indicate the selection and focused cell if not printing if (!isPaintingForPrint()) { isSelected = isCellSelected(row, column); boolean rowIsLead = (selectionModel.getLeadSelectionIndex() == row); boolean colIsLead = (columnModel.getSelectionModel().getLeadSelectionIndex() == column); hasFocus = (rowIsLead && colIsLead) && isFocusOwner(); } return renderer.getTableCellRendererComponent(this, value, isSelected, hasFocus, row, column); } /** * Returns an appropriate editor for the cell specified by * row and column. If the * TableColumn for this column has a non-null editor, * returns that. If not, finds the class of the data in this * column (using getColumnClass) * and returns the default editor for this type of data. *

* Note: * Throughout the table package, the internal implementations always * use this method to provide editors so that this default behavior * can be safely overridden by a subclass. * * @param row the row of the cell to edit, where 0 is the first row * @param column the column of the cell to edit, * where 0 is the first column * @return the editor for this cell; * if null return the default editor for * this type of cell * @see DefaultCellEditor */ public TableCellEditor getCellEditor(int row, int column) { TableColumn tableColumn = getColumnModel().getColumn(column); TableCellEditor editor = tableColumn.getCellEditor(); if (editor == null) { editor = getDefaultEditor(getColumnClass(column)); } return editor; } /** * Prepares the editor by querying the data model for the value and * selection state of the cell at row, column. *

* Note: * Throughout the table package, the internal implementations always * use this method to prepare editors so that this default behavior * can be safely overridden by a subclass. * * @param editor the TableCellEditor to set up * @param row the row of the cell to edit, * where 0 is the first row * @param column the column of the cell to edit, * where 0 is the first column * @return the Component being edited */ public Component prepareEditor(TableCellEditor editor, int row, int column) { Object value = getValueAt(row, column); boolean isSelected = isCellSelected(row, column); Component comp = editor.getTableCellEditorComponent(this, value, isSelected, row, column); if (comp instanceof JComponent) { JComponent jComp = (JComponent)comp; if (jComp.getNextFocusableComponent() == null) { jComp.setNextFocusableComponent(this); } } return comp; } /** * Discards the editor object and frees the real estate it used for * cell rendering. */ public void removeEditor() { KeyboardFocusManager.getCurrentKeyboardFocusManager(). removePropertyChangeListener("permanentFocusOwner", editorRemover); editorRemover = null; TableCellEditor editor = getCellEditor(); if(editor != null) { editor.removeCellEditorListener(this); if (editorComp != null) { Component focusOwner = KeyboardFocusManager.getCurrentKeyboardFocusManager().getFocusOwner(); boolean isFocusOwnerInTheTable = focusOwner != null? SwingUtilities.isDescendingFrom(focusOwner, this):false; remove(editorComp); if(isFocusOwnerInTheTable) { requestFocusInWindow(); } } Rectangle cellRect = getCellRect(editingRow, editingColumn, false); setCellEditor(null); setEditingColumn(-1); setEditingRow(-1); editorComp = null; repaint(cellRect); } } // // Serialization // /** * See readObject() and writeObject() in JComponent for more * information about serialization in Swing. */ private void writeObject(ObjectOutputStream s) throws IOException { s.defaultWriteObject(); if (getUIClassID().equals(uiClassID)) { byte count = JComponent.getWriteObjCounter(this); JComponent.setWriteObjCounter(this, --count); if (count == 0 && ui != null) { ui.installUI(this); } } } private void readObject(ObjectInputStream s) throws IOException, ClassNotFoundException { s.defaultReadObject(); if ((ui != null) && (getUIClassID().equals(uiClassID))) { ui.installUI(this); } createDefaultRenderers(); createDefaultEditors(); // If ToolTipText != null, then the tooltip has already been // registered by JComponent.readObject() and we don't want // to re-register here if (getToolTipText() == null) { ToolTipManager.sharedInstance().registerComponent(this); } } /* Called from the JComponent's EnableSerializationFocusListener to * do any Swing-specific pre-serialization configuration. */ void compWriteObjectNotify() { super.compWriteObjectNotify(); // If ToolTipText != null, then the tooltip has already been // unregistered by JComponent.compWriteObjectNotify() if (getToolTipText() == null) { ToolTipManager.sharedInstance().unregisterComponent(this); } } /** * Returns a string representation of this table. This method * is intended to be used only for debugging purposes, and the * content and format of the returned string may vary between * implementations. The returned string may be empty but may not * be null. * * @return a string representation of this table */ protected String paramString() { String gridColorString = (gridColor != null ? gridColor.toString() : ""); String showHorizontalLinesString = (showHorizontalLines ? "true" : "false"); String showVerticalLinesString = (showVerticalLines ? "true" : "false"); String autoResizeModeString; if (autoResizeMode == AUTO_RESIZE_OFF) { autoResizeModeString = "AUTO_RESIZE_OFF"; } else if (autoResizeMode == AUTO_RESIZE_NEXT_COLUMN) { autoResizeModeString = "AUTO_RESIZE_NEXT_COLUMN"; } else if (autoResizeMode == AUTO_RESIZE_SUBSEQUENT_COLUMNS) { autoResizeModeString = "AUTO_RESIZE_SUBSEQUENT_COLUMNS"; } else if (autoResizeMode == AUTO_RESIZE_LAST_COLUMN) { autoResizeModeString = "AUTO_RESIZE_LAST_COLUMN"; } else if (autoResizeMode == AUTO_RESIZE_ALL_COLUMNS) { autoResizeModeString = "AUTO_RESIZE_ALL_COLUMNS"; } else autoResizeModeString = ""; String autoCreateColumnsFromModelString = (autoCreateColumnsFromModel ? "true" : "false"); String preferredViewportSizeString = (preferredViewportSize != null ? preferredViewportSize.toString() : ""); String rowSelectionAllowedString = (rowSelectionAllowed ? "true" : "false"); String cellSelectionEnabledString = (cellSelectionEnabled ? "true" : "false"); String selectionForegroundString = (selectionForeground != null ? selectionForeground.toString() : ""); String selectionBackgroundString = (selectionBackground != null ? selectionBackground.toString() : ""); return super.paramString() + ",autoCreateColumnsFromModel=" + autoCreateColumnsFromModelString + ",autoResizeMode=" + autoResizeModeString + ",cellSelectionEnabled=" + cellSelectionEnabledString + ",editingColumn=" + editingColumn + ",editingRow=" + editingRow + ",gridColor=" + gridColorString + ",preferredViewportSize=" + preferredViewportSizeString + ",rowHeight=" + rowHeight + ",rowMargin=" + rowMargin + ",rowSelectionAllowed=" + rowSelectionAllowedString + ",selectionBackground=" + selectionBackgroundString + ",selectionForeground=" + selectionForegroundString + ",showHorizontalLines=" + showHorizontalLinesString + ",showVerticalLines=" + showVerticalLinesString; } // This class tracks changes in the keyboard focus state. It is used // when the JTable is editing to determine when to cancel the edit. // If focus switches to a component outside of the jtable, but in the // same window, this will cancel editing. class CellEditorRemover implements PropertyChangeListener { KeyboardFocusManager focusManager; public CellEditorRemover(KeyboardFocusManager fm) { this.focusManager = fm; } public void propertyChange(PropertyChangeEvent ev) { if (!isEditing() || getClientProperty("terminateEditOnFocusLost") != Boolean.TRUE) { return; } Component c = focusManager.getPermanentFocusOwner(); while (c != null) { if (c == JTable.this) { // focus remains inside the table return; } else if ((c instanceof Window) || (c instanceof Applet && c.getParent() == null)) { if (c == SwingUtilities.getRoot(JTable.this)) { if (!getCellEditor().stopCellEditing()) { getCellEditor().cancelCellEditing(); } } break; } c = c.getParent(); } } } ///////////////// // Printing Support ///////////////// /** * A convenience method that displays a printing dialog, and then prints * this JTable in mode PrintMode.FIT_WIDTH, * with no header or footer text. A modal progress dialog, with an abort * option, will be shown for the duration of printing. *

* Note: In headless mode, no dialogs are shown and printing * occurs on the default printer. * * @return true, unless printing is cancelled by the user * @throws SecurityException if this thread is not allowed to * initiate a print job request * @throws PrinterException if an error in the print system causes the job * to be aborted * @see #print(JTable.PrintMode, MessageFormat, MessageFormat, * boolean, PrintRequestAttributeSet, boolean, PrintService) * @see #getPrintable * * @since 1.5 */ public boolean print() throws PrinterException { return print(PrintMode.FIT_WIDTH); } /** * A convenience method that displays a printing dialog, and then prints * this JTable in the given printing mode, * with no header or footer text. A modal progress dialog, with an abort * option, will be shown for the duration of printing. *

* Note: In headless mode, no dialogs are shown and printing * occurs on the default printer. * * @param printMode the printing mode that the printable should use * @return true, unless printing is cancelled by the user * @throws SecurityException if this thread is not allowed to * initiate a print job request * @throws PrinterException if an error in the print system causes the job * to be aborted * @see #print(JTable.PrintMode, MessageFormat, MessageFormat, * boolean, PrintRequestAttributeSet, boolean, PrintService) * @see #getPrintable * * @since 1.5 */ public boolean print(PrintMode printMode) throws PrinterException { return print(printMode, null, null); } /** * A convenience method that displays a printing dialog, and then prints * this JTable in the given printing mode, * with the specified header and footer text. A modal progress dialog, * with an abort option, will be shown for the duration of printing. *

* Note: In headless mode, no dialogs are shown and printing * occurs on the default printer. * * @param printMode the printing mode that the printable should use * @param headerFormat a MessageFormat specifying the text * to be used in printing a header, * or null for none * @param footerFormat a MessageFormat specifying the text * to be used in printing a footer, * or null for none * @return true, unless printing is cancelled by the user * @throws SecurityException if this thread is not allowed to * initiate a print job request * @throws PrinterException if an error in the print system causes the job * to be aborted * @see #print(JTable.PrintMode, MessageFormat, MessageFormat, * boolean, PrintRequestAttributeSet, boolean, PrintService) * @see #getPrintable * * @since 1.5 */ public boolean print(PrintMode printMode, MessageFormat headerFormat, MessageFormat footerFormat) throws PrinterException { boolean showDialogs = !GraphicsEnvironment.isHeadless(); return print(printMode, headerFormat, footerFormat, showDialogs, null, showDialogs); } /** * Prints this table, as specified by the fully featured * {@link #print(JTable.PrintMode, MessageFormat, MessageFormat, * boolean, PrintRequestAttributeSet, boolean, PrintService) print} * method, with the default printer specified as the print service. * * @param printMode the printing mode that the printable should use * @param headerFormat a MessageFormat specifying the text * to be used in printing a header, * or null for none * @param footerFormat a MessageFormat specifying the text * to be used in printing a footer, * or null for none * @param showPrintDialog whether or not to display a print dialog * @param attr a PrintRequestAttributeSet * specifying any printing attributes, * or null for none * @param interactive whether or not to print in an interactive mode * @return true, unless printing is cancelled by the user * @throws HeadlessException if the method is asked to show a printing * dialog or run interactively, and * GraphicsEnvironment.isHeadless * returns true * @throws SecurityException if this thread is not allowed to * initiate a print job request * @throws PrinterException if an error in the print system causes the job * to be aborted * @see #print(JTable.PrintMode, MessageFormat, MessageFormat, * boolean, PrintRequestAttributeSet, boolean, PrintService) * @see #getPrintable * * @since 1.5 */ public boolean print(PrintMode printMode, MessageFormat headerFormat, MessageFormat footerFormat, boolean showPrintDialog, PrintRequestAttributeSet attr, boolean interactive) throws PrinterException, HeadlessException { return print(printMode, headerFormat, footerFormat, showPrintDialog, attr, interactive, null); } /** * Prints this JTable. Takes steps that the majority of * developers would take in order to print a JTable. * In short, it prepares the table, calls getPrintable to * fetch an appropriate Printable, and then sends it to the * printer. *

* A boolean parameter allows you to specify whether or not * a printing dialog is displayed to the user. When it is, the user may * use the dialog to change the destination printer or printing attributes, * or even to cancel the print. Another two parameters allow for a * PrintService and printing attributes to be specified. * These parameters can be used either to provide initial values for the * print dialog, or to specify values when the dialog is not shown. *

* A second boolean parameter allows you to specify whether * or not to perform printing in an interactive mode. If true, * a modal progress dialog, with an abort option, is displayed for the * duration of printing . This dialog also prevents any user action which * may affect the table. However, it can not prevent the table from being * modified by code (for example, another thread that posts updates using * SwingUtilities.invokeLater). It is therefore the * responsibility of the developer to ensure that no other code modifies * the table in any way during printing (invalid modifications include * changes in: size, renderers, or underlying data). Printing behavior is * undefined when the table is changed during printing. *

* If false is specified for this parameter, no dialog will * be displayed and printing will begin immediately on the event-dispatch * thread. This blocks any other events, including repaints, from being * processed until printing is complete. Although this effectively prevents * the table from being changed, it doesn't provide a good user experience. * For this reason, specifying false is only recommended when * printing from an application with no visible GUI. *

* Note: Attempting to show the printing dialog or run interactively, while * in headless mode, will result in a HeadlessException. *

* Before fetching the printable, this method will gracefully terminate * editing, if necessary, to prevent an editor from showing in the printed * result. Additionally, JTable will prepare its renderers * during printing such that selection and focus are not indicated. * As far as customizing further how the table looks in the printout, * developers can provide custom renderers or paint code that conditionalize * on the value of {@link javax.swing.JComponent#isPaintingForPrint()}. *

* See {@link #getPrintable} for more description on how the table is * printed. * * @param printMode the printing mode that the printable should use * @param headerFormat a MessageFormat specifying the text * to be used in printing a header, * or null for none * @param footerFormat a MessageFormat specifying the text * to be used in printing a footer, * or null for none * @param showPrintDialog whether or not to display a print dialog * @param attr a PrintRequestAttributeSet * specifying any printing attributes, * or null for none * @param interactive whether or not to print in an interactive mode * @param service the destination PrintService, * or null to use the default printer * @return true, unless printing is cancelled by the user * @throws HeadlessException if the method is asked to show a printing * dialog or run interactively, and * GraphicsEnvironment.isHeadless * returns true * @throws SecurityException if a security manager exists and its * {@link java.lang.SecurityManager#checkPrintJobAccess} * method disallows this thread from creating a print job request * @throws PrinterException if an error in the print system causes the job * to be aborted * @see #getPrintable * @see java.awt.GraphicsEnvironment#isHeadless * * @since 1.6 */ public boolean print(PrintMode printMode, MessageFormat headerFormat, MessageFormat footerFormat, boolean showPrintDialog, PrintRequestAttributeSet attr, boolean interactive, PrintService service) throws PrinterException, HeadlessException { // complain early if an invalid parameter is specified for headless mode boolean isHeadless = GraphicsEnvironment.isHeadless(); if (isHeadless) { if (showPrintDialog) { throw new HeadlessException("Can't show print dialog."); } if (interactive) { throw new HeadlessException("Can't run interactively."); } } // Get a PrinterJob. // Do this before anything with side-effects since it may throw a // security exception - in which case we don't want to do anything else. final PrinterJob job = PrinterJob.getPrinterJob(); if (isEditing()) { // try to stop cell editing, and failing that, cancel it if (!getCellEditor().stopCellEditing()) { getCellEditor().cancelCellEditing(); } } if (attr == null) { attr = new HashPrintRequestAttributeSet(); } final PrintingStatus printingStatus; // fetch the Printable Printable printable = getPrintable(printMode, headerFormat, footerFormat); if (interactive) { // wrap the Printable so that we can print on another thread printable = new ThreadSafePrintable(printable); printingStatus = PrintingStatus.createPrintingStatus(this, job); printable = printingStatus.createNotificationPrintable(printable); } else { // to please compiler printingStatus = null; } // set the printable on the PrinterJob job.setPrintable(printable); // if specified, set the PrintService on the PrinterJob if (service != null) { job.setPrintService(service); } // if requested, show the print dialog if (showPrintDialog && !job.printDialog(attr)) { // the user cancelled the print dialog return false; } // if not interactive, just print on this thread (no dialog) if (!interactive) { // do the printing job.print(attr); // we're done return true; } // make sure this is clear since we'll check it after printError = null; // to synchronize on final Object lock = new Object(); // copied so we can access from the inner class final PrintRequestAttributeSet copyAttr = attr; // this runnable will be used to do the printing // (and save any throwables) on another thread Runnable runnable = new Runnable() { public void run() { try { // do the printing job.print(copyAttr); } catch (Throwable t) { // save any Throwable to be rethrown synchronized(lock) { printError = t; } } finally { // we're finished - hide the dialog printingStatus.dispose(); } } }; // start printing on another thread Thread th = new Thread(runnable); th.start(); printingStatus.showModal(true); // look for any error that the printing may have generated Throwable pe; synchronized(lock) { pe = printError; printError = null; } // check the type of error and handle it if (pe != null) { // a subclass of PrinterException meaning the job was aborted, // in this case, by the user if (pe instanceof PrinterAbortException) { return false; } else if (pe instanceof PrinterException) { throw (PrinterException)pe; } else if (pe instanceof RuntimeException) { throw (RuntimeException)pe; } else if (pe instanceof Error) { throw (Error)pe; } // can not happen throw new AssertionError(pe); } return true; } /** * Return a Printable for use in printing this JTable. *

* This method is meant for those wishing to customize the default * Printable implementation used by JTable's * print methods. Developers wanting simply to print the table * should use one of those methods directly. *

* The Printable can be requested in one of two printing modes. * In both modes, it spreads table rows naturally in sequence across * multiple pages, fitting as many rows as possible per page. * PrintMode.NORMAL specifies that the table be * printed at its current size. In this mode, there may be a need to spread * columns across pages in a similar manner to that of the rows. When the * need arises, columns are distributed in an order consistent with the * table's ComponentOrientation. * PrintMode.FIT_WIDTH specifies that the output be * scaled smaller, if necessary, to fit the table's entire width * (and thereby all columns) on each page. Width and height are scaled * equally, maintaining the aspect ratio of the output. *

* The Printable heads the portion of table on each page * with the appropriate section from the table's JTableHeader, * if it has one. *

* Header and footer text can be added to the output by providing * MessageFormat arguments. The printing code requests * Strings from the formats, providing a single item which may be included * in the formatted string: an Integer representing the current * page number. *

* You are encouraged to read the documentation for * MessageFormat as some characters, such as single-quote, * are special and need to be escaped. *

* Here's an example of creating a MessageFormat that can be * used to print "Duke's Table: Page - " and the current page number: * *

     *     // notice the escaping of the single quote
     *     // notice how the page number is included with "{0}"
     *     MessageFormat format = new MessageFormat("Duke''s Table: Page - {0}");
     * 
*

* The Printable constrains what it draws to the printable * area of each page that it prints. Under certain circumstances, it may * find it impossible to fit all of a page's content into that area. In * these cases the output may be clipped, but the implementation * makes an effort to do something reasonable. Here are a few situations * where this is known to occur, and how they may be handled by this * particular implementation: *

*

* It is entirely valid for this Printable to be wrapped * inside another in order to create complex reports and documents. You may * even request that different pages be rendered into different sized * printable areas. The implementation must be prepared to handle this * (possibly by doing its layout calculations on the fly). However, * providing different heights to each page will likely not work well * with PrintMode.NORMAL when it has to spread columns * across pages. *

* As far as customizing how the table looks in the printed result, * JTable itself will take care of hiding the selection * and focus during printing. For additional customizations, your * renderers or painting code can customize the look based on the value * of {@link javax.swing.JComponent#isPaintingForPrint()} *

* Also, before calling this method you may wish to first * modify the state of the table, such as to cancel cell editing or * have the user size the table appropriately. However, you must not * modify the state of the table after this Printable * has been fetched (invalid modifications include changes in size or * underlying data). The behavior of the returned Printable * is undefined once the table has been changed. * * @param printMode the printing mode that the printable should use * @param headerFormat a MessageFormat specifying the text to * be used in printing a header, or null for none * @param footerFormat a MessageFormat specifying the text to * be used in printing a footer, or null for none * @return a Printable for printing this JTable * @see #print(JTable.PrintMode, MessageFormat, MessageFormat, * boolean, PrintRequestAttributeSet, boolean) * @see Printable * @see PrinterJob * * @since 1.5 */ public Printable getPrintable(PrintMode printMode, MessageFormat headerFormat, MessageFormat footerFormat) { return new TablePrintable(this, printMode, headerFormat, footerFormat); } /** * A Printable implementation that wraps another * Printable, making it safe for printing on another thread. */ private class ThreadSafePrintable implements Printable { /** The delegate Printable. */ private Printable printDelegate; /** * To communicate any return value when delegating. */ private int retVal; /** * To communicate any Throwable when delegating. */ private Throwable retThrowable; /** * Construct a ThreadSafePrintable around the given * delegate. * * @param printDelegate the Printable to delegate to */ public ThreadSafePrintable(Printable printDelegate) { this.printDelegate = printDelegate; } /** * Prints the specified page into the given {@link Graphics} * context, in the specified format. *

* Regardless of what thread this method is called on, all calls into * the delegate will be done on the event-dispatch thread. * * @param graphics the context into which the page is drawn * @param pageFormat the size and orientation of the page being drawn * @param pageIndex the zero based index of the page to be drawn * @return PAGE_EXISTS if the page is rendered successfully, or * NO_SUCH_PAGE if a non-existent page index is specified * @throws PrinterException if an error causes printing to be aborted */ public int print(final Graphics graphics, final PageFormat pageFormat, final int pageIndex) throws PrinterException { // We'll use this Runnable Runnable runnable = new Runnable() { public synchronized void run() { try { // call into the delegate and save the return value retVal = printDelegate.print(graphics, pageFormat, pageIndex); } catch (Throwable throwable) { // save any Throwable to be rethrown retThrowable = throwable; } finally { // notify the caller that we're done notifyAll(); } } }; synchronized(runnable) { // make sure these are initialized retVal = -1; retThrowable = null; // call into the EDT SwingUtilities.invokeLater(runnable); // wait for the runnable to finish while (retVal == -1 && retThrowable == null) { try { runnable.wait(); } catch (InterruptedException ie) { // short process, safe to ignore interrupts } } // if the delegate threw a throwable, rethrow it here if (retThrowable != null) { if (retThrowable instanceof PrinterException) { throw (PrinterException)retThrowable; } else if (retThrowable instanceof RuntimeException) { throw (RuntimeException)retThrowable; } else if (retThrowable instanceof Error) { throw (Error)retThrowable; } // can not happen throw new AssertionError(retThrowable); } return retVal; } } } ///////////////// // Accessibility support //////////////// /** * Gets the AccessibleContext associated with this JTable. * For tables, the AccessibleContext takes the form of an * AccessibleJTable. * A new AccessibleJTable instance is created if necessary. * * @return an AccessibleJTable that serves as the * AccessibleContext of this JTable */ public AccessibleContext getAccessibleContext() { if (accessibleContext == null) { accessibleContext = new AccessibleJTable(); } return accessibleContext; } // // *** should also implement AccessibleSelection? // *** and what's up with keyboard navigation/manipulation? // /** * This class implements accessibility support for the * JTable class. It provides an implementation of the * Java Accessibility API appropriate to table user-interface elements. *

* Warning: * 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 java.beans package. * Please see {@link java.beans.XMLEncoder}. */ protected class AccessibleJTable extends AccessibleJComponent implements AccessibleSelection, ListSelectionListener, TableModelListener, TableColumnModelListener, CellEditorListener, PropertyChangeListener, AccessibleExtendedTable { int previousFocusedRow; int previousFocusedCol; /** * AccessibleJTable constructor * * @since 1.5 */ protected AccessibleJTable() { super(); JTable.this.addPropertyChangeListener(this); JTable.this.getSelectionModel().addListSelectionListener(this); TableColumnModel tcm = JTable.this.getColumnModel(); tcm.addColumnModelListener(this); tcm.getSelectionModel().addListSelectionListener(this); JTable.this.getModel().addTableModelListener(this); previousFocusedRow = JTable.this.getSelectionModel(). getLeadSelectionIndex(); previousFocusedCol = JTable.this.getColumnModel(). getSelectionModel().getLeadSelectionIndex(); } // Listeners to track model, etc. changes to as to re-place the other // listeners /** * Track changes to selection model, column model, etc. so as to * be able to re-place listeners on those in order to pass on * information to the Accessibility PropertyChange mechanism */ public void propertyChange(PropertyChangeEvent e) { String name = e.getPropertyName(); Object oldValue = e.getOldValue(); Object newValue = e.getNewValue(); // re-set tableModel listeners if (name.compareTo("model") == 0) { if (oldValue != null && oldValue instanceof TableModel) { ((TableModel) oldValue).removeTableModelListener(this); } if (newValue != null && newValue instanceof TableModel) { ((TableModel) newValue).addTableModelListener(this); } // re-set selectionModel listeners } else if (name.compareTo("selectionModel") == 0) { Object source = e.getSource(); if (source == JTable.this) { // row selection model if (oldValue != null && oldValue instanceof ListSelectionModel) { ((ListSelectionModel) oldValue).removeListSelectionListener(this); } if (newValue != null && newValue instanceof ListSelectionModel) { ((ListSelectionModel) newValue).addListSelectionListener(this); } } else if (source == JTable.this.getColumnModel()) { if (oldValue != null && oldValue instanceof ListSelectionModel) { ((ListSelectionModel) oldValue).removeListSelectionListener(this); } if (newValue != null && newValue instanceof ListSelectionModel) { ((ListSelectionModel) newValue).addListSelectionListener(this); } } else { // System.out.println("!!! Bug in source of selectionModel propertyChangeEvent"); } // re-set columnModel listeners // and column's selection property listener as well } else if (name.compareTo("columnModel") == 0) { if (oldValue != null && oldValue instanceof TableColumnModel) { TableColumnModel tcm = (TableColumnModel) oldValue; tcm.removeColumnModelListener(this); tcm.getSelectionModel().removeListSelectionListener(this); } if (newValue != null && newValue instanceof TableColumnModel) { TableColumnModel tcm = (TableColumnModel) newValue; tcm.addColumnModelListener(this); tcm.getSelectionModel().addListSelectionListener(this); } // re-se cellEditor listeners } else if (name.compareTo("tableCellEditor") == 0) { if (oldValue != null && oldValue instanceof TableCellEditor) { ((TableCellEditor) oldValue).removeCellEditorListener(this); } if (newValue != null && newValue instanceof TableCellEditor) { ((TableCellEditor) newValue).addCellEditorListener(this); } } } // Listeners to echo changes to the AccessiblePropertyChange mechanism /* * Describes a change in the accessible table model. */ protected class AccessibleJTableModelChange implements AccessibleTableModelChange { protected int type; protected int firstRow; protected int lastRow; protected int firstColumn; protected int lastColumn; protected AccessibleJTableModelChange(int type, int firstRow, int lastRow, int firstColumn, int lastColumn) { this.type = type; this.firstRow = firstRow; this.lastRow = lastRow; this.firstColumn = firstColumn; this.lastColumn = lastColumn; } public int getType() { return type; } public int getFirstRow() { return firstRow; } public int getLastRow() { return lastRow; } public int getFirstColumn() { return firstColumn; } public int getLastColumn() { return lastColumn; } } /** * Track changes to the table contents */ public void tableChanged(TableModelEvent e) { firePropertyChange(AccessibleContext.ACCESSIBLE_VISIBLE_DATA_PROPERTY, null, null); if (e != null) { int firstColumn = e.getColumn(); int lastColumn = e.getColumn(); if (firstColumn == TableModelEvent.ALL_COLUMNS) { firstColumn = 0; lastColumn = getColumnCount() - 1; } // Fire a property change event indicating the table model // has changed. AccessibleJTableModelChange change = new AccessibleJTableModelChange(e.getType(), e.getFirstRow(), e.getLastRow(), firstColumn, lastColumn); firePropertyChange(AccessibleContext.ACCESSIBLE_TABLE_MODEL_CHANGED, null, change); } } /** * Track changes to the table contents (row insertions) */ public void tableRowsInserted(TableModelEvent e) { firePropertyChange(AccessibleContext.ACCESSIBLE_VISIBLE_DATA_PROPERTY, null, null); // Fire a property change event indicating the table model // has changed. int firstColumn = e.getColumn(); int lastColumn = e.getColumn(); if (firstColumn == TableModelEvent.ALL_COLUMNS) { firstColumn = 0; lastColumn = getColumnCount() - 1; } AccessibleJTableModelChange change = new AccessibleJTableModelChange(e.getType(), e.getFirstRow(), e.getLastRow(), firstColumn, lastColumn); firePropertyChange(AccessibleContext.ACCESSIBLE_TABLE_MODEL_CHANGED, null, change); } /** * Track changes to the table contents (row deletions) */ public void tableRowsDeleted(TableModelEvent e) { firePropertyChange(AccessibleContext.ACCESSIBLE_VISIBLE_DATA_PROPERTY, null, null); // Fire a property change event indicating the table model // has changed. int firstColumn = e.getColumn(); int lastColumn = e.getColumn(); if (firstColumn == TableModelEvent.ALL_COLUMNS) { firstColumn = 0; lastColumn = getColumnCount() - 1; } AccessibleJTableModelChange change = new AccessibleJTableModelChange(e.getType(), e.getFirstRow(), e.getLastRow(), firstColumn, lastColumn); firePropertyChange(AccessibleContext.ACCESSIBLE_TABLE_MODEL_CHANGED, null, change); } /** * Track changes to the table contents (column insertions) */ public void columnAdded(TableColumnModelEvent e) { firePropertyChange(AccessibleContext.ACCESSIBLE_VISIBLE_DATA_PROPERTY, null, null); // Fire a property change event indicating the table model // has changed. int type = AccessibleTableModelChange.INSERT; AccessibleJTableModelChange change = new AccessibleJTableModelChange(type, 0, 0, e.getFromIndex(), e.getToIndex()); firePropertyChange(AccessibleContext.ACCESSIBLE_TABLE_MODEL_CHANGED, null, change); } /** * Track changes to the table contents (column deletions) */ public void columnRemoved(TableColumnModelEvent e) { firePropertyChange(AccessibleContext.ACCESSIBLE_VISIBLE_DATA_PROPERTY, null, null); // Fire a property change event indicating the table model // has changed. int type = AccessibleTableModelChange.DELETE; AccessibleJTableModelChange change = new AccessibleJTableModelChange(type, 0, 0, e.getFromIndex(), e.getToIndex()); firePropertyChange(AccessibleContext.ACCESSIBLE_TABLE_MODEL_CHANGED, null, change); } /** * Track changes of a column repositioning. * * @see TableColumnModelListener */ public void columnMoved(TableColumnModelEvent e) { firePropertyChange(AccessibleContext.ACCESSIBLE_VISIBLE_DATA_PROPERTY, null, null); // Fire property change events indicating the table model // has changed. int type = AccessibleTableModelChange.DELETE; AccessibleJTableModelChange change = new AccessibleJTableModelChange(type, 0, 0, e.getFromIndex(), e.getFromIndex()); firePropertyChange(AccessibleContext.ACCESSIBLE_TABLE_MODEL_CHANGED, null, change); int type2 = AccessibleTableModelChange.INSERT; AccessibleJTableModelChange change2 = new AccessibleJTableModelChange(type2, 0, 0, e.getToIndex(), e.getToIndex()); firePropertyChange(AccessibleContext.ACCESSIBLE_TABLE_MODEL_CHANGED, null, change2); } /** * Track changes of a column moving due to margin changes. * * @see TableColumnModelListener */ public void columnMarginChanged(ChangeEvent e) { firePropertyChange(AccessibleContext.ACCESSIBLE_VISIBLE_DATA_PROPERTY, null, null); } /** * Track that the selection model of the TableColumnModel changed. * * @see TableColumnModelListener */ public void columnSelectionChanged(ListSelectionEvent e) { // we should now re-place our TableColumn listener } /** * Track changes to a cell's contents. * * Invoked when editing is finished. The changes are saved, the * editor object is discarded, and the cell is rendered once again. * * @see CellEditorListener */ public void editingStopped(ChangeEvent e) { // it'd be great if we could figure out which cell, and pass that // somehow as a parameter firePropertyChange(AccessibleContext.ACCESSIBLE_VISIBLE_DATA_PROPERTY, null, null); } /** * Invoked when editing is canceled. The editor object is discarded * and the cell is rendered once again. * * @see CellEditorListener */ public void editingCanceled(ChangeEvent e) { // nothing to report, 'cause nothing changed } /** * Track changes to table cell selections */ public void valueChanged(ListSelectionEvent e) { firePropertyChange(AccessibleContext.ACCESSIBLE_SELECTION_PROPERTY, Boolean.valueOf(false), Boolean.valueOf(true)); // Using lead selection index to cover both cases: node selected and node // is focused but not selected (Ctrl+up/down) int focusedRow = JTable.this.getSelectionModel().getLeadSelectionIndex(); int focusedCol = JTable.this.getColumnModel().getSelectionModel(). getLeadSelectionIndex(); if (focusedRow != previousFocusedRow || focusedCol != previousFocusedCol) { Accessible oldA = getAccessibleAt(previousFocusedRow, previousFocusedCol); Accessible newA = getAccessibleAt(focusedRow, focusedCol); firePropertyChange(AccessibleContext.ACCESSIBLE_ACTIVE_DESCENDANT_PROPERTY, oldA, newA); previousFocusedRow = focusedRow; previousFocusedCol = focusedCol; } } // AccessibleContext support /** * Get the AccessibleSelection associated with this object. In the * implementation of the Java Accessibility API for this class, * return this object, which is responsible for implementing the * AccessibleSelection interface on behalf of itself. * * @return this object */ public AccessibleSelection getAccessibleSelection() { return this; } /** * Gets the role of this object. * * @return an instance of AccessibleRole describing the role of the * object * @see AccessibleRole */ public AccessibleRole getAccessibleRole() { return AccessibleRole.TABLE; } /** * Returns the Accessible child, if one exists, * contained at the local coordinate Point. * * @param p the point defining the top-left corner of the * Accessible, given in the coordinate space * of the object's parent * @return the Accessible, if it exists, * at the specified location; else null */ public Accessible getAccessibleAt(Point p) { int column = columnAtPoint(p); int row = rowAtPoint(p); if ((column != -1) && (row != -1)) { TableColumn aColumn = getColumnModel().getColumn(column); TableCellRenderer renderer = aColumn.getCellRenderer(); if (renderer == null) { Class columnClass = getColumnClass(column); renderer = getDefaultRenderer(columnClass); } Component component = renderer.getTableCellRendererComponent( JTable.this, null, false, false, row, column); return new AccessibleJTableCell(JTable.this, row, column, getAccessibleIndexAt(row, column)); } return null; } /** * Returns the number of accessible children in the object. If all * of the children of this object implement Accessible, * then this method should return the number of children of this object. * * @return the number of accessible children in the object */ public int getAccessibleChildrenCount() { return (JTable.this.getColumnCount() * JTable.this.getRowCount()); } /** * Returns the nth Accessible child of the object. * * @param i zero-based index of child * @return the nth Accessible child of the object */ public Accessible getAccessibleChild(int i) { if (i < 0 || i >= getAccessibleChildrenCount()) { return null; } else { // children increase across, and then down, for tables // (arbitrary decision) int column = getAccessibleColumnAtIndex(i); int row = getAccessibleRowAtIndex(i); TableColumn aColumn = getColumnModel().getColumn(column); TableCellRenderer renderer = aColumn.getCellRenderer(); if (renderer == null) { Class columnClass = getColumnClass(column); renderer = getDefaultRenderer(columnClass); } Component component = renderer.getTableCellRendererComponent( JTable.this, null, false, false, row, column); return new AccessibleJTableCell(JTable.this, row, column, getAccessibleIndexAt(row, column)); } } // AccessibleSelection support /** * Returns the number of Accessible children * currently selected. * If no children are selected, the return value will be 0. * * @return the number of items currently selected */ public int getAccessibleSelectionCount() { int rowsSel = JTable.this.getSelectedRowCount(); int colsSel = JTable.this.getSelectedColumnCount(); if (JTable.this.cellSelectionEnabled) { // a contiguous block return rowsSel * colsSel; } else { // a column swath and a row swath, with a shared block if (JTable.this.getRowSelectionAllowed() && JTable.this.getColumnSelectionAllowed()) { return rowsSel * JTable.this.getColumnCount() + colsSel * JTable.this.getRowCount() - rowsSel * colsSel; // just one or more rows in selection } else if (JTable.this.getRowSelectionAllowed()) { return rowsSel * JTable.this.getColumnCount(); // just one or more rows in selection } else if (JTable.this.getColumnSelectionAllowed()) { return colsSel * JTable.this.getRowCount(); } else { return 0; // JTable doesn't allow selections } } } /** * Returns an Accessible representing the * specified selected child in the object. If there * isn't a selection, or there are fewer children selected * than the integer passed in, the return * value will be null. *

Note that the index represents the i-th selected child, which * is different from the i-th child. * * @param i the zero-based index of selected children * @return the i-th selected child * @see #getAccessibleSelectionCount */ public Accessible getAccessibleSelection(int i) { if (i < 0 || i > getAccessibleSelectionCount()) { return null; } int rowsSel = JTable.this.getSelectedRowCount(); int colsSel = JTable.this.getSelectedColumnCount(); int rowIndicies[] = getSelectedRows(); int colIndicies[] = getSelectedColumns(); int ttlCols = JTable.this.getColumnCount(); int ttlRows = JTable.this.getRowCount(); int r; int c; if (JTable.this.cellSelectionEnabled) { // a contiguous block r = rowIndicies[i / colsSel]; c = colIndicies[i % colsSel]; return getAccessibleChild((r * ttlCols) + c); } else { // a column swath and a row swath, with a shared block if (JTable.this.getRowSelectionAllowed() && JTable.this.getColumnSelectionAllowed()) { // Situation: // We have a table, like the 6x3 table below, // wherein three colums and one row selected // (selected cells marked with "*", unselected "0"): // // 0 * 0 * * 0 // * * * * * * // 0 * 0 * * 0 // // State machine below walks through the array of // selected rows in two states: in a selected row, // and not in one; continuing until we are in a row // in which the ith selection exists. Then we return // the appropriate cell. In the state machine, we // always do rows above the "current" selected row first, // then the cells in the selected row. If we're done // with the state machine before finding the requested // selected child, we handle the rows below the last // selected row at the end. // int curIndex = i; final int IN_ROW = 0; final int NOT_IN_ROW = 1; int state = (rowIndicies[0] == 0 ? IN_ROW : NOT_IN_ROW); int j = 0; int prevRow = -1; while (j < rowIndicies.length) { switch (state) { case IN_ROW: // on individual row full of selections if (curIndex < ttlCols) { // it's here! c = curIndex % ttlCols; r = rowIndicies[j]; return getAccessibleChild((r * ttlCols) + c); } else { // not here curIndex -= ttlCols; } // is the next row in table selected or not? if (j + 1 == rowIndicies.length || rowIndicies[j] != rowIndicies[j+1] - 1) { state = NOT_IN_ROW; prevRow = rowIndicies[j]; } j++; // we didn't return earlier, so go to next row break; case NOT_IN_ROW: // sparse bunch of rows of selections if (curIndex < (colsSel * (rowIndicies[j] - (prevRow == -1 ? 0 : (prevRow + 1))))) { // it's here! c = colIndicies[curIndex % colsSel]; r = (j > 0 ? rowIndicies[j-1] + 1 : 0) + curIndex / colsSel; return getAccessibleChild((r * ttlCols) + c); } else { // not here curIndex -= colsSel * (rowIndicies[j] - (prevRow == -1 ? 0 : (prevRow + 1))); } state = IN_ROW; break; } } // we got here, so we didn't find it yet; find it in // the last sparse bunch of rows if (curIndex < (colsSel * (ttlRows - (prevRow == -1 ? 0 : (prevRow + 1))))) { // it's here! c = colIndicies[curIndex % colsSel]; r = rowIndicies[j-1] + curIndex / colsSel + 1; return getAccessibleChild((r * ttlCols) + c); } else { // not here // we shouldn't get to this spot in the code! // System.out.println("Bug in AccessibleJTable.getAccessibleSelection()"); } // one or more rows selected } else if (JTable.this.getRowSelectionAllowed()) { c = i % ttlCols; r = rowIndicies[i / ttlCols]; return getAccessibleChild((r * ttlCols) + c); // one or more columns selected } else if (JTable.this.getColumnSelectionAllowed()) { c = colIndicies[i % colsSel]; r = i / colsSel; return getAccessibleChild((r * ttlCols) + c); } } return null; } /** * Determines if the current child of this object is selected. * * @param i the zero-based index of the child in this * Accessible object * @return true if the current child of this object is selected * @see AccessibleContext#getAccessibleChild */ public boolean isAccessibleChildSelected(int i) { int column = getAccessibleColumnAtIndex(i); int row = getAccessibleRowAtIndex(i); return JTable.this.isCellSelected(row, column); } /** * Adds the specified Accessible child of the * object to the object's selection. If the object supports * multiple selections, the specified child is added to * any existing selection, otherwise * it replaces any existing selection in the object. If the * specified child is already selected, this method has no effect. *

* This method only works on JTables which have * individual cell selection enabled. * * @param i the zero-based index of the child * @see AccessibleContext#getAccessibleChild */ public void addAccessibleSelection(int i) { // TIGER - 4495286 int column = getAccessibleColumnAtIndex(i); int row = getAccessibleRowAtIndex(i); JTable.this.changeSelection(row, column, true, false); } /** * Removes the specified child of the object from the object's * selection. If the specified item isn't currently selected, this * method has no effect. *

* This method only works on JTables which have * individual cell selection enabled. * * @param i the zero-based index of the child * @see AccessibleContext#getAccessibleChild */ public void removeAccessibleSelection(int i) { if (JTable.this.cellSelectionEnabled) { int column = getAccessibleColumnAtIndex(i); int row = getAccessibleRowAtIndex(i); JTable.this.removeRowSelectionInterval(row, row); JTable.this.removeColumnSelectionInterval(column, column); } } /** * Clears the selection in the object, so that no children in the * object are selected. */ public void clearAccessibleSelection() { JTable.this.clearSelection(); } /** * Causes every child of the object to be selected, but only * if the JTable supports multiple selections, * and if individual cell selection is enabled. */ public void selectAllAccessibleSelection() { if (JTable.this.cellSelectionEnabled) { JTable.this.selectAll(); } } // begin AccessibleExtendedTable implementation ------------- /** * Returns the row number of an index in the table. * * @param index the zero-based index in the table * @return the zero-based row of the table if one exists; * otherwise -1. * @since 1.4 */ public int getAccessibleRow(int index) { return getAccessibleRowAtIndex(index); } /** * Returns the column number of an index in the table. * * @param index the zero-based index in the table * @return the zero-based column of the table if one exists; * otherwise -1. * @since 1.4 */ public int getAccessibleColumn(int index) { return getAccessibleColumnAtIndex(index); } /** * Returns the index at a row and column in the table. * * @param r zero-based row of the table * @param c zero-based column of the table * @return the zero-based index in the table if one exists; * otherwise -1. * @since 1.4 */ public int getAccessibleIndex(int r, int c) { return getAccessibleIndexAt(r, c); } // end of AccessibleExtendedTable implementation ------------ // start of AccessibleTable implementation ------------------ private Accessible caption; private Accessible summary; private Accessible [] rowDescription; private Accessible [] columnDescription; /** * Gets the AccessibleTable associated with this * object. In the implementation of the Java Accessibility * API for this class, return this object, which is responsible * for implementing the AccessibleTables interface * on behalf of itself. * * @return this object * @since 1.3 */ public AccessibleTable getAccessibleTable() { return this; } /** * Returns the caption for the table. * * @return the caption for the table * @since 1.3 */ public Accessible getAccessibleCaption() { return this.caption; } /** * Sets the caption for the table. * * @param a the caption for the table * @since 1.3 */ public void setAccessibleCaption(Accessible a) { Accessible oldCaption = caption; this.caption = a; firePropertyChange(AccessibleContext.ACCESSIBLE_TABLE_CAPTION_CHANGED, oldCaption, this.caption); } /** * Returns the summary description of the table. * * @return the summary description of the table * @since 1.3 */ public Accessible getAccessibleSummary() { return this.summary; } /** * Sets the summary description of the table. * * @param a the summary description of the table * @since 1.3 */ public void setAccessibleSummary(Accessible a) { Accessible oldSummary = summary; this.summary = a; firePropertyChange(AccessibleContext.ACCESSIBLE_TABLE_SUMMARY_CHANGED, oldSummary, this.summary); } /* * Returns the total number of rows in this table. * * @return the total number of rows in this table */ public int getAccessibleRowCount() { return JTable.this.getRowCount(); } /* * Returns the total number of columns in the table. * * @return the total number of columns in the table */ public int getAccessibleColumnCount() { return JTable.this.getColumnCount(); } /* * Returns the Accessible at a specified row * and column in the table. * * @param r zero-based row of the table * @param c zero-based column of the table * @return the Accessible at the specified row and column * in the table */ public Accessible getAccessibleAt(int r, int c) { return getAccessibleChild((r * getAccessibleColumnCount()) + c); } /** * Returns the number of rows occupied by the Accessible * at a specified row and column in the table. * * @return the number of rows occupied by the Accessible * at a specified row and column in the table * @since 1.3 */ public int getAccessibleRowExtentAt(int r, int c) { return 1; } /** * Returns the number of columns occupied by the * Accessible at a given (row, column). * * @return the number of columns occupied by the Accessible * at a specified row and column in the table * @since 1.3 */ public int getAccessibleColumnExtentAt(int r, int c) { return 1; } /** * Returns the row headers as an AccessibleTable. * * @return an AccessibleTable representing the row * headers * @since 1.3 */ public AccessibleTable getAccessibleRowHeader() { // row headers are not supported return null; } /** * Sets the row headers as an AccessibleTable. * * @param a an AccessibleTable representing the row * headers * @since 1.3 */ public void setAccessibleRowHeader(AccessibleTable a) { // row headers are not supported } /** * Returns the column headers as an AccessibleTable. * * @return an AccessibleTable representing the column * headers, or null if the table header is * null * @since 1.3 */ public AccessibleTable getAccessibleColumnHeader() { JTableHeader header = JTable.this.getTableHeader(); return header == null ? null : new AccessibleTableHeader(header); } /* * Private class representing a table column header */ private class AccessibleTableHeader implements AccessibleTable { private JTableHeader header; private TableColumnModel headerModel; AccessibleTableHeader(JTableHeader header) { this.header = header; this.headerModel = header.getColumnModel(); } /** * Returns the caption for the table. * * @return the caption for the table */ public Accessible getAccessibleCaption() { return null; } /** * Sets the caption for the table. * * @param a the caption for the table */ public void setAccessibleCaption(Accessible a) {} /** * Returns the summary description of the table. * * @return the summary description of the table */ public Accessible getAccessibleSummary() { return null; } /** * Sets the summary description of the table * * @param a the summary description of the table */ public void setAccessibleSummary(Accessible a) {} /** * Returns the number of rows in the table. * * @return the number of rows in the table */ public int getAccessibleRowCount() { return 1; } /** * Returns the number of columns in the table. * * @return the number of columns in the table */ public int getAccessibleColumnCount() { return headerModel.getColumnCount(); } /** * Returns the Accessible at a specified row and column * in the table. * * @param row zero-based row of the table * @param column zero-based column of the table * @return the Accessible at the specified row and column */ public Accessible getAccessibleAt(int row, int column) { // TIGER - 4715503 TableColumn aColumn = headerModel.getColumn(column); TableCellRenderer renderer = aColumn.getHeaderRenderer(); if (renderer == null) { renderer = header.getDefaultRenderer(); } Component component = renderer.getTableCellRendererComponent( header.getTable(), aColumn.getHeaderValue(), false, false, -1, column); return new AccessibleJTableHeaderCell(row, column, JTable.this.getTableHeader(), component); } /** * Returns the number of rows occupied by the Accessible at * a specified row and column in the table. * * @return the number of rows occupied by the Accessible at a * given specified (row, column) */ public int getAccessibleRowExtentAt(int r, int c) { return 1; } /** * Returns the number of columns occupied by the Accessible at * a specified row and column in the table. * * @return the number of columns occupied by the Accessible at a * given specified row and column */ public int getAccessibleColumnExtentAt(int r, int c) { return 1; } /** * Returns the row headers as an AccessibleTable. * * @return an AccessibleTable representing the row * headers */ public AccessibleTable getAccessibleRowHeader() { return null; } /** * Sets the row headers. * * @param table an AccessibleTable representing the * row headers */ public void setAccessibleRowHeader(AccessibleTable table) {} /** * Returns the column headers as an AccessibleTable. * * @return an AccessibleTable representing the column * headers */ public AccessibleTable getAccessibleColumnHeader() { return null; } /** * Sets the column headers. * * @param table an AccessibleTable representing the * column headers * @since 1.3 */ public void setAccessibleColumnHeader(AccessibleTable table) {} /** * Returns the description of the specified row in the table. * * @param r zero-based row of the table * @return the description of the row * @since 1.3 */ public Accessible getAccessibleRowDescription(int r) { return null; } /** * Sets the description text of the specified row of the table. * * @param r zero-based row of the table * @param a the description of the row * @since 1.3 */ public void setAccessibleRowDescription(int r, Accessible a) {} /** * Returns the description text of the specified column in the table. * * @param c zero-based column of the table * @return the text description of the column * @since 1.3 */ public Accessible getAccessibleColumnDescription(int c) { return null; } /** * Sets the description text of the specified column in the table. * * @param c zero-based column of the table * @param a the text description of the column * @since 1.3 */ public void setAccessibleColumnDescription(int c, Accessible a) {} /** * Returns a boolean value indicating whether the accessible at * a specified row and column is selected. * * @param r zero-based row of the table * @param c zero-based column of the table * @return the boolean value true if the accessible at the * row and column is selected. Otherwise, the boolean value * false * @since 1.3 */ public boolean isAccessibleSelected(int r, int c) { return false; } /** * Returns a boolean value indicating whether the specified row * is selected. * * @param r zero-based row of the table * @return the boolean value true if the specified row is selected. * Otherwise, false. * @since 1.3 */ public boolean isAccessibleRowSelected(int r) { return false; } /** * Returns a boolean value indicating whether the specified column * is selected. * * @param c zero-based column of the table * @return the boolean value true if the specified column is selected. * Otherwise, false. * @since 1.3 */ public boolean isAccessibleColumnSelected(int c) { return false; } /** * Returns the selected rows in a table. * * @return an array of selected rows where each element is a * zero-based row of the table * @since 1.3 */ public int [] getSelectedAccessibleRows() { return new int[0]; } /** * Returns the selected columns in a table. * * @return an array of selected columns where each element is a * zero-based column of the table * @since 1.3 */ public int [] getSelectedAccessibleColumns() { return new int[0]; } } /** * Sets the column headers as an AccessibleTable. * * @param a an AccessibleTable representing the * column headers * @since 1.3 */ public void setAccessibleColumnHeader(AccessibleTable a) { // XXX not implemented } /** * Returns the description of the specified row in the table. * * @param r zero-based row of the table * @return the description of the row * @since 1.3 */ public Accessible getAccessibleRowDescription(int r) { if (r < 0 || r >= getAccessibleRowCount()) { throw new IllegalArgumentException(Integer.toString(r)); } if (rowDescription == null) { return null; } else { return rowDescription[r]; } } /** * Sets the description text of the specified row of the table. * * @param r zero-based row of the table * @param a the description of the row * @since 1.3 */ public void setAccessibleRowDescription(int r, Accessible a) { if (r < 0 || r >= getAccessibleRowCount()) { throw new IllegalArgumentException(Integer.toString(r)); } if (rowDescription == null) { int numRows = getAccessibleRowCount(); rowDescription = new Accessible[numRows]; } rowDescription[r] = a; } /** * Returns the description of the specified column in the table. * * @param c zero-based column of the table * @return the description of the column * @since 1.3 */ public Accessible getAccessibleColumnDescription(int c) { if (c < 0 || c >= getAccessibleColumnCount()) { throw new IllegalArgumentException(Integer.toString(c)); } if (columnDescription == null) { return null; } else { return columnDescription[c]; } } /** * Sets the description text of the specified column of the table. * * @param c zero-based column of the table * @param a the description of the column * @since 1.3 */ public void setAccessibleColumnDescription(int c, Accessible a) { if (c < 0 || c >= getAccessibleColumnCount()) { throw new IllegalArgumentException(Integer.toString(c)); } if (columnDescription == null) { int numColumns = getAccessibleColumnCount(); columnDescription = new Accessible[numColumns]; } columnDescription[c] = a; } /** * Returns a boolean value indicating whether the accessible at a * given (row, column) is selected. * * @param r zero-based row of the table * @param c zero-based column of the table * @return the boolean value true if the accessible at (row, column) * is selected; otherwise, the boolean value false * @since 1.3 */ public boolean isAccessibleSelected(int r, int c) { return JTable.this.isCellSelected(r, c); } /** * Returns a boolean value indicating whether the specified row * is selected. * * @param r zero-based row of the table * @return the boolean value true if the specified row is selected; * otherwise, false * @since 1.3 */ public boolean isAccessibleRowSelected(int r) { return JTable.this.isRowSelected(r); } /** * Returns a boolean value indicating whether the specified column * is selected. * * @param c zero-based column of the table * @return the boolean value true if the specified column is selected; * otherwise, false * @since 1.3 */ public boolean isAccessibleColumnSelected(int c) { return JTable.this.isColumnSelected(c); } /** * Returns the selected rows in a table. * * @return an array of selected rows where each element is a * zero-based row of the table * @since 1.3 */ public int [] getSelectedAccessibleRows() { return JTable.this.getSelectedRows(); } /** * Returns the selected columns in a table. * * @return an array of selected columns where each element is a * zero-based column of the table * @since 1.3 */ public int [] getSelectedAccessibleColumns() { return JTable.this.getSelectedColumns(); } /** * Returns the row at a given index into the table. * * @param i zero-based index into the table * @return the row at a given index * @since 1.3 */ public int getAccessibleRowAtIndex(int i) { int columnCount = getAccessibleColumnCount(); if (columnCount == 0) { return -1; } else { return (i / columnCount); } } /** * Returns the column at a given index into the table. * * @param i zero-based index into the table * @return the column at a given index * @since 1.3 */ public int getAccessibleColumnAtIndex(int i) { int columnCount = getAccessibleColumnCount(); if (columnCount == 0) { return -1; } else { return (i % columnCount); } } /** * Returns the index at a given (row, column) in the table. * * @param r zero-based row of the table * @param c zero-based column of the table * @return the index into the table * @since 1.3 */ public int getAccessibleIndexAt(int r, int c) { return ((r * getAccessibleColumnCount()) + c); } // end of AccessibleTable implementation -------------------- /** * The class provides an implementation of the Java Accessibility * API appropriate to table cells. */ protected class AccessibleJTableCell extends AccessibleContext implements Accessible, AccessibleComponent { private JTable parent; private int row; private int column; private int index; /** * Constructs an AccessibleJTableHeaderEntry. * @since 1.4 */ public AccessibleJTableCell(JTable t, int r, int c, int i) { parent = t; row = r; column = c; index = i; this.setAccessibleParent(parent); } /** * Gets the AccessibleContext associated with this * component. In the implementation of the Java Accessibility * API for this class, return this object, which is its own * AccessibleContext. * * @return this object */ public AccessibleContext getAccessibleContext() { return this; } /** * Gets the AccessibleContext for the table cell renderer. * * @return the AccessibleContext for the table * cell renderer if one exists; * otherwise, returns null. * @since 1.6 */ protected AccessibleContext getCurrentAccessibleContext() { TableColumn aColumn = getColumnModel().getColumn(column); TableCellRenderer renderer = aColumn.getCellRenderer(); if (renderer == null) { Class columnClass = getColumnClass(column); renderer = getDefaultRenderer(columnClass); } Component component = renderer.getTableCellRendererComponent( JTable.this, getValueAt(row, column), false, false, row, column); if (component instanceof Accessible) { return component.getAccessibleContext(); } else { return null; } } /** * Gets the table cell renderer component. * * @return the table cell renderer component if one exists; * otherwise, returns null. * @since 1.6 */ protected Component getCurrentComponent() { TableColumn aColumn = getColumnModel().getColumn(column); TableCellRenderer renderer = aColumn.getCellRenderer(); if (renderer == null) { Class columnClass = getColumnClass(column); renderer = getDefaultRenderer(columnClass); } return renderer.getTableCellRendererComponent( JTable.this, null, false, false, row, column); } // AccessibleContext methods /** * Gets the accessible name of this object. * * @return the localized name of the object; null * if this object does not have a name */ public String getAccessibleName() { AccessibleContext ac = getCurrentAccessibleContext(); if (ac != null) { String name = ac.getAccessibleName(); if ((name != null) && (name != "")) { // return the cell renderer's AccessibleName return name; } } if ((accessibleName != null) && (accessibleName != "")) { return accessibleName; } else { // fall back to the client property return (String)getClientProperty(AccessibleContext.ACCESSIBLE_NAME_PROPERTY); } } /** * Sets the localized accessible name of this object. * * @param s the new localized name of the object */ public void setAccessibleName(String s) { AccessibleContext ac = getCurrentAccessibleContext(); if (ac != null) { ac.setAccessibleName(s); } else { super.setAccessibleName(s); } } // // *** should check toolTip text for desc. (needs MouseEvent) // /** * Gets the accessible description of this object. * * @return the localized description of the object; * null if this object does not have * a description */ public String getAccessibleDescription() { AccessibleContext ac = getCurrentAccessibleContext(); if (ac != null) { return ac.getAccessibleDescription(); } else { return super.getAccessibleDescription(); } } /** * Sets the accessible description of this object. * * @param s the new localized description of the object */ public void setAccessibleDescription(String s) { AccessibleContext ac = getCurrentAccessibleContext(); if (ac != null) { ac.setAccessibleDescription(s); } else { super.setAccessibleDescription(s); } } /** * Gets the role of this object. * * @return an instance of AccessibleRole * describing the role of the object * @see AccessibleRole */ public AccessibleRole getAccessibleRole() { AccessibleContext ac = getCurrentAccessibleContext(); if (ac != null) { return ac.getAccessibleRole(); } else { return AccessibleRole.UNKNOWN; } } /** * Gets the state set of this object. * * @return an instance of AccessibleStateSet * containing the current state set of the object * @see AccessibleState */ public AccessibleStateSet getAccessibleStateSet() { AccessibleContext ac = getCurrentAccessibleContext(); AccessibleStateSet as = null; if (ac != null) { as = ac.getAccessibleStateSet(); } if (as == null) { as = new AccessibleStateSet(); } Rectangle rjt = JTable.this.getVisibleRect(); Rectangle rcell = JTable.this.getCellRect(row, column, false); if (rjt.intersects(rcell)) { as.add(AccessibleState.SHOWING); } else { if (as.contains(AccessibleState.SHOWING)) { as.remove(AccessibleState.SHOWING); } } if (parent.isCellSelected(row, column)) { as.add(AccessibleState.SELECTED); } else if (as.contains(AccessibleState.SELECTED)) { as.remove(AccessibleState.SELECTED); } if ((row == getSelectedRow()) && (column == getSelectedColumn())) { as.add(AccessibleState.ACTIVE); } as.add(AccessibleState.TRANSIENT); return as; } /** * Gets the Accessible parent of this object. * * @return the Accessible parent of this object; * null if this object does not * have an Accessible parent */ public Accessible getAccessibleParent() { return parent; } /** * Gets the index of this object in its accessible parent. * * @return the index of this object in its parent; -1 if this * object does not have an accessible parent * @see #getAccessibleParent */ public int getAccessibleIndexInParent() { return index; } /** * Returns the number of accessible children in the object. * * @return the number of accessible children in the object */ public int getAccessibleChildrenCount() { AccessibleContext ac = getCurrentAccessibleContext(); if (ac != null) { return ac.getAccessibleChildrenCount(); } else { return 0; } } /** * Returns the specified Accessible child of the * object. * * @param i zero-based index of child * @return the Accessible child of the object */ public Accessible getAccessibleChild(int i) { AccessibleContext ac = getCurrentAccessibleContext(); if (ac != null) { Accessible accessibleChild = ac.getAccessibleChild(i); ac.setAccessibleParent(this); return accessibleChild; } else { return null; } } /** * Gets the locale of the component. If the component * does not have a locale, then the locale of its parent * is returned. * * @return this component's locale; if this component does * not have a locale, the locale of its parent is returned * @exception IllegalComponentStateException if the * Component does not have its own locale * and has not yet been added to a containment hierarchy * such that the locale can be determined from the * containing parent * @see #setLocale */ public Locale getLocale() { AccessibleContext ac = getCurrentAccessibleContext(); if (ac != null) { return ac.getLocale(); } else { return null; } } /** * Adds a PropertyChangeListener to the listener list. * The listener is registered for all properties. * * @param l the PropertyChangeListener * to be added */ public void addPropertyChangeListener(PropertyChangeListener l) { AccessibleContext ac = getCurrentAccessibleContext(); if (ac != null) { ac.addPropertyChangeListener(l); } else { super.addPropertyChangeListener(l); } } /** * Removes a PropertyChangeListener from the * listener list. This removes a PropertyChangeListener * that was registered for all properties. * * @param l the PropertyChangeListener * to be removed */ public void removePropertyChangeListener(PropertyChangeListener l) { AccessibleContext ac = getCurrentAccessibleContext(); if (ac != null) { ac.removePropertyChangeListener(l); } else { super.removePropertyChangeListener(l); } } /** * Gets the AccessibleAction associated with this * object if one exists. Otherwise returns null. * * @return the AccessibleAction, or null */ public AccessibleAction getAccessibleAction() { return getCurrentAccessibleContext().getAccessibleAction(); } /** * Gets the AccessibleComponent associated with * this object if one exists. Otherwise returns null. * * @return the AccessibleComponent, or * null */ public AccessibleComponent getAccessibleComponent() { return this; // to override getBounds() } /** * Gets the AccessibleSelection associated with * this object if one exists. Otherwise returns null. * * @return the AccessibleSelection, or * null */ public AccessibleSelection getAccessibleSelection() { return getCurrentAccessibleContext().getAccessibleSelection(); } /** * Gets the AccessibleText associated with this * object if one exists. Otherwise returns null. * * @return the AccessibleText, or null */ public AccessibleText getAccessibleText() { return getCurrentAccessibleContext().getAccessibleText(); } /** * Gets the AccessibleValue associated with * this object if one exists. Otherwise returns null. * * @return the AccessibleValue, or null */ public AccessibleValue getAccessibleValue() { return getCurrentAccessibleContext().getAccessibleValue(); } // AccessibleComponent methods /** * Gets the background color of this object. * * @return the background color, if supported, of the object; * otherwise, null */ public Color getBackground() { AccessibleContext ac = getCurrentAccessibleContext(); if (ac instanceof AccessibleComponent) { return ((AccessibleComponent) ac).getBackground(); } else { Component c = getCurrentComponent(); if (c != null) { return c.getBackground(); } else { return null; } } } /** * Sets the background color of this object. * * @param c the new Color for the background */ public void setBackground(Color c) { AccessibleContext ac = getCurrentAccessibleContext(); if (ac instanceof AccessibleComponent) { ((AccessibleComponent) ac).setBackground(c); } else { Component cp = getCurrentComponent(); if (cp != null) { cp.setBackground(c); } } } /** * Gets the foreground color of this object. * * @return the foreground color, if supported, of the object; * otherwise, null */ public Color getForeground() { AccessibleContext ac = getCurrentAccessibleContext(); if (ac instanceof AccessibleComponent) { return ((AccessibleComponent) ac).getForeground(); } else { Component c = getCurrentComponent(); if (c != null) { return c.getForeground(); } else { return null; } } } /** * Sets the foreground color of this object. * * @param c the new Color for the foreground */ public void setForeground(Color c) { AccessibleContext ac = getCurrentAccessibleContext(); if (ac instanceof AccessibleComponent) { ((AccessibleComponent) ac).setForeground(c); } else { Component cp = getCurrentComponent(); if (cp != null) { cp.setForeground(c); } } } /** * Gets the Cursor of this object. * * @return the Cursor, if supported, * of the object; otherwise, null */ public Cursor getCursor() { AccessibleContext ac = getCurrentAccessibleContext(); if (ac instanceof AccessibleComponent) { return ((AccessibleComponent) ac).getCursor(); } else { Component c = getCurrentComponent(); if (c != null) { return c.getCursor(); } else { Accessible ap = getAccessibleParent(); if (ap instanceof AccessibleComponent) { return ((AccessibleComponent) ap).getCursor(); } else { return null; } } } } /** * Sets the Cursor of this object. * * @param c the new Cursor for the object */ public void setCursor(Cursor c) { AccessibleContext ac = getCurrentAccessibleContext(); if (ac instanceof AccessibleComponent) { ((AccessibleComponent) ac).setCursor(c); } else { Component cp = getCurrentComponent(); if (cp != null) { cp.setCursor(c); } } } /** * Gets the Font of this object. * * @return the Font,if supported, * for the object; otherwise, null */ public Font getFont() { AccessibleContext ac = getCurrentAccessibleContext(); if (ac instanceof AccessibleComponent) { return ((AccessibleComponent) ac).getFont(); } else { Component c = getCurrentComponent(); if (c != null) { return c.getFont(); } else { return null; } } } /** * Sets the Font of this object. * * @param f the new Font for the object */ public void setFont(Font f) { AccessibleContext ac = getCurrentAccessibleContext(); if (ac instanceof AccessibleComponent) { ((AccessibleComponent) ac).setFont(f); } else { Component c = getCurrentComponent(); if (c != null) { c.setFont(f); } } } /** * Gets the FontMetrics of this object. * * @param f the Font * @return the FontMetrics object, if supported; * otherwise null * @see #getFont */ public FontMetrics getFontMetrics(Font f) { AccessibleContext ac = getCurrentAccessibleContext(); if (ac instanceof AccessibleComponent) { return ((AccessibleComponent) ac).getFontMetrics(f); } else { Component c = getCurrentComponent(); if (c != null) { return c.getFontMetrics(f); } else { return null; } } } /** * Determines if the object is enabled. * * @return true if object is enabled; otherwise, false */ public boolean isEnabled() { AccessibleContext ac = getCurrentAccessibleContext(); if (ac instanceof AccessibleComponent) { return ((AccessibleComponent) ac).isEnabled(); } else { Component c = getCurrentComponent(); if (c != null) { return c.isEnabled(); } else { return false; } } } /** * Sets the enabled state of the object. * * @param b if true, enables this object; otherwise, disables it */ public void setEnabled(boolean b) { AccessibleContext ac = getCurrentAccessibleContext(); if (ac instanceof AccessibleComponent) { ((AccessibleComponent) ac).setEnabled(b); } else { Component c = getCurrentComponent(); if (c != null) { c.setEnabled(b); } } } /** * Determines if this object is visible. Note: this means that the * object intends to be visible; however, it may not in fact be * showing on the screen because one of the objects that this object * is contained by is not visible. To determine if an object is * showing on the screen, use isShowing. * * @return true if object is visible; otherwise, false */ public boolean isVisible() { AccessibleContext ac = getCurrentAccessibleContext(); if (ac instanceof AccessibleComponent) { return ((AccessibleComponent) ac).isVisible(); } else { Component c = getCurrentComponent(); if (c != null) { return c.isVisible(); } else { return false; } } } /** * Sets the visible state of the object. * * @param b if true, shows this object; otherwise, hides it */ public void setVisible(boolean b) { AccessibleContext ac = getCurrentAccessibleContext(); if (ac instanceof AccessibleComponent) { ((AccessibleComponent) ac).setVisible(b); } else { Component c = getCurrentComponent(); if (c != null) { c.setVisible(b); } } } /** * Determines if the object is showing. This is determined * by checking the visibility of the object and ancestors * of the object. Note: this will return true even if the * object is obscured by another (for example, * it happens to be underneath a menu that was pulled down). * * @return true if the object is showing; otherwise, false */ public boolean isShowing() { AccessibleContext ac = getCurrentAccessibleContext(); if (ac instanceof AccessibleComponent) { if (ac.getAccessibleParent() != null) { return ((AccessibleComponent) ac).isShowing(); } else { // Fixes 4529616 - AccessibleJTableCell.isShowing() // returns false when the cell on the screen // if no parent return isVisible(); } } else { Component c = getCurrentComponent(); if (c != null) { return c.isShowing(); } else { return false; } } } /** * Checks whether the specified point is within this * object's bounds, where the point's x and y coordinates * are defined to be relative to the coordinate system of * the object. * * @param p the Point relative to the * coordinate system of the object * @return true if object contains Point; * otherwise false */ public boolean contains(Point p) { AccessibleContext ac = getCurrentAccessibleContext(); if (ac instanceof AccessibleComponent) { Rectangle r = ((AccessibleComponent) ac).getBounds(); return r.contains(p); } else { Component c = getCurrentComponent(); if (c != null) { Rectangle r = c.getBounds(); return r.contains(p); } else { return getBounds().contains(p); } } } /** * Returns the location of the object on the screen. * * @return location of object on screen -- can be * null if this object is not on the screen */ public Point getLocationOnScreen() { if (parent != null && parent.isShowing()) { Point parentLocation = parent.getLocationOnScreen(); Point componentLocation = getLocation(); componentLocation.translate(parentLocation.x, parentLocation.y); return componentLocation; } else { return null; } } /** * Gets the location of the object relative to the parent * in the form of a point specifying the object's * top-left corner in the screen's coordinate space. * * @return an instance of Point representing * the top-left corner of the object's bounds in the * coordinate space of the screen; null if * this object or its parent are not on the screen */ public Point getLocation() { if (parent != null) { Rectangle r = parent.getCellRect(row, column, false); if (r != null) { return r.getLocation(); } } return null; } /** * Sets the location of the object relative to the parent. */ public void setLocation(Point p) { // if ((parent != null) && (parent.contains(p))) { // ensureIndexIsVisible(indexInParent); // } } public Rectangle getBounds() { if (parent != null) { return parent.getCellRect(row, column, false); } else { return null; } } public void setBounds(Rectangle r) { AccessibleContext ac = getCurrentAccessibleContext(); if (ac instanceof AccessibleComponent) { ((AccessibleComponent) ac).setBounds(r); } else { Component c = getCurrentComponent(); if (c != null) { c.setBounds(r); } } } public Dimension getSize() { if (parent != null) { Rectangle r = parent.getCellRect(row, column, false); if (r != null) { return r.getSize(); } } return null; } public void setSize (Dimension d) { AccessibleContext ac = getCurrentAccessibleContext(); if (ac instanceof AccessibleComponent) { ((AccessibleComponent) ac).setSize(d); } else { Component c = getCurrentComponent(); if (c != null) { c.setSize(d); } } } public Accessible getAccessibleAt(Point p) { AccessibleContext ac = getCurrentAccessibleContext(); if (ac instanceof AccessibleComponent) { return ((AccessibleComponent) ac).getAccessibleAt(p); } else { return null; } } public boolean isFocusTraversable() { AccessibleContext ac = getCurrentAccessibleContext(); if (ac instanceof AccessibleComponent) { return ((AccessibleComponent) ac).isFocusTraversable(); } else { Component c = getCurrentComponent(); if (c != null) { return c.isFocusTraversable(); } else { return false; } } } public void requestFocus() { AccessibleContext ac = getCurrentAccessibleContext(); if (ac instanceof AccessibleComponent) { ((AccessibleComponent) ac).requestFocus(); } else { Component c = getCurrentComponent(); if (c != null) { c.requestFocus(); } } } public void addFocusListener(FocusListener l) { AccessibleContext ac = getCurrentAccessibleContext(); if (ac instanceof AccessibleComponent) { ((AccessibleComponent) ac).addFocusListener(l); } else { Component c = getCurrentComponent(); if (c != null) { c.addFocusListener(l); } } } public void removeFocusListener(FocusListener l) { AccessibleContext ac = getCurrentAccessibleContext(); if (ac instanceof AccessibleComponent) { ((AccessibleComponent) ac).removeFocusListener(l); } else { Component c = getCurrentComponent(); if (c != null) { c.removeFocusListener(l); } } } } // inner class AccessibleJTableCell // Begin AccessibleJTableHeader ========== // TIGER - 4715503 /** * This class implements accessibility for JTable header cells. */ private class AccessibleJTableHeaderCell extends AccessibleContext implements Accessible, AccessibleComponent { private int row; private int column; private JTableHeader parent; private Component rendererComponent; /** * Constructs an AccessibleJTableHeaderEntry instance. * * @param row header cell row index * @param column header cell column index * @param parent header cell parent * @param rendererComponent component that renders the header cell */ public AccessibleJTableHeaderCell(int row, int column, JTableHeader parent, Component rendererComponent) { this.row = row; this.column = column; this.parent = parent; this.rendererComponent = rendererComponent; this.setAccessibleParent(parent); } /** * Gets the AccessibleContext associated with this * component. In the implementation of the Java Accessibility * API for this class, return this object, which is its own * AccessibleContext. * * @return this object */ public AccessibleContext getAccessibleContext() { return this; } /* * Returns the AccessibleContext for the header cell * renderer. */ private AccessibleContext getCurrentAccessibleContext() { return rendererComponent.getAccessibleContext(); } /* * Returns the component that renders the header cell. */ private Component getCurrentComponent() { return rendererComponent; } // AccessibleContext methods ========== /** * Gets the accessible name of this object. * * @return the localized name of the object; null * if this object does not have a name */ public String getAccessibleName() { AccessibleContext ac = getCurrentAccessibleContext(); if (ac != null) { String name = ac.getAccessibleName(); if ((name != null) && (name != "")) { return ac.getAccessibleName(); } } if ((accessibleName != null) && (accessibleName != "")) { return accessibleName; } else { return null; } } /** * Sets the localized accessible name of this object. * * @param s the new localized name of the object */ public void setAccessibleName(String s) { AccessibleContext ac = getCurrentAccessibleContext(); if (ac != null) { ac.setAccessibleName(s); } else { super.setAccessibleName(s); } } /** * Gets the accessible description of this object. * * @return the localized description of the object; * null if this object does not have * a description */ public String getAccessibleDescription() { AccessibleContext ac = getCurrentAccessibleContext(); if (ac != null) { return ac.getAccessibleDescription(); } else { return super.getAccessibleDescription(); } } /** * Sets the accessible description of this object. * * @param s the new localized description of the object */ public void setAccessibleDescription(String s) { AccessibleContext ac = getCurrentAccessibleContext(); if (ac != null) { ac.setAccessibleDescription(s); } else { super.setAccessibleDescription(s); } } /** * Gets the role of this object. * * @return an instance of AccessibleRole * describing the role of the object * @see AccessibleRole */ public AccessibleRole getAccessibleRole() { AccessibleContext ac = getCurrentAccessibleContext(); if (ac != null) { return ac.getAccessibleRole(); } else { return AccessibleRole.UNKNOWN; } } /** * Gets the state set of this object. * * @return an instance of AccessibleStateSet * containing the current state set of the object * @see AccessibleState */ public AccessibleStateSet getAccessibleStateSet() { AccessibleContext ac = getCurrentAccessibleContext(); AccessibleStateSet as = null; if (ac != null) { as = ac.getAccessibleStateSet(); } if (as == null) { as = new AccessibleStateSet(); } Rectangle rjt = JTable.this.getVisibleRect(); Rectangle rcell = JTable.this.getCellRect(row, column, false); if (rjt.intersects(rcell)) { as.add(AccessibleState.SHOWING); } else { if (as.contains(AccessibleState.SHOWING)) { as.remove(AccessibleState.SHOWING); } } if (JTable.this.isCellSelected(row, column)) { as.add(AccessibleState.SELECTED); } else if (as.contains(AccessibleState.SELECTED)) { as.remove(AccessibleState.SELECTED); } if ((row == getSelectedRow()) && (column == getSelectedColumn())) { as.add(AccessibleState.ACTIVE); } as.add(AccessibleState.TRANSIENT); return as; } /** * Gets the Accessible parent of this object. * * @return the Accessible parent of this object; * null if this object does not * have an Accessible parent */ public Accessible getAccessibleParent() { return parent; } /** * Gets the index of this object in its accessible parent. * * @return the index of this object in its parent; -1 if this * object does not have an accessible parent * @see #getAccessibleParent */ public int getAccessibleIndexInParent() { return column; } /** * Returns the number of accessible children in the object. * * @return the number of accessible children in the object */ public int getAccessibleChildrenCount() { AccessibleContext ac = getCurrentAccessibleContext(); if (ac != null) { return ac.getAccessibleChildrenCount(); } else { return 0; } } /** * Returns the specified Accessible child of the * object. * * @param i zero-based index of child * @return the Accessible child of the object */ public Accessible getAccessibleChild(int i) { AccessibleContext ac = getCurrentAccessibleContext(); if (ac != null) { Accessible accessibleChild = ac.getAccessibleChild(i); ac.setAccessibleParent(this); return accessibleChild; } else { return null; } } /** * Gets the locale of the component. If the component * does not have a locale, then the locale of its parent * is returned. * * @return this component's locale; if this component does * not have a locale, the locale of its parent is returned * @exception IllegalComponentStateException if the * Component does not have its own locale * and has not yet been added to a containment hierarchy * such that the locale can be determined from the * containing parent * @see #setLocale */ public Locale getLocale() { AccessibleContext ac = getCurrentAccessibleContext(); if (ac != null) { return ac.getLocale(); } else { return null; } } /** * Adds a PropertyChangeListener to the listener list. * The listener is registered for all properties. * * @param l the PropertyChangeListener * to be added */ public void addPropertyChangeListener(PropertyChangeListener l) { AccessibleContext ac = getCurrentAccessibleContext(); if (ac != null) { ac.addPropertyChangeListener(l); } else { super.addPropertyChangeListener(l); } } /** * Removes a PropertyChangeListener from the * listener list. This removes a PropertyChangeListener * that was registered for all properties. * * @param l the PropertyChangeListener * to be removed */ public void removePropertyChangeListener(PropertyChangeListener l) { AccessibleContext ac = getCurrentAccessibleContext(); if (ac != null) { ac.removePropertyChangeListener(l); } else { super.removePropertyChangeListener(l); } } /** * Gets the AccessibleAction associated with this * object if one exists. Otherwise returns null. * * @return the AccessibleAction, or null */ public AccessibleAction getAccessibleAction() { return getCurrentAccessibleContext().getAccessibleAction(); } /** * Gets the AccessibleComponent associated with * this object if one exists. Otherwise returns null. * * @return the AccessibleComponent, or * null */ public AccessibleComponent getAccessibleComponent() { return this; // to override getBounds() } /** * Gets the AccessibleSelection associated with * this object if one exists. Otherwise returns null. * * @return the AccessibleSelection, or * null */ public AccessibleSelection getAccessibleSelection() { return getCurrentAccessibleContext().getAccessibleSelection(); } /** * Gets the AccessibleText associated with this * object if one exists. Otherwise returns null. * * @return the AccessibleText, or null */ public AccessibleText getAccessibleText() { return getCurrentAccessibleContext().getAccessibleText(); } /** * Gets the AccessibleValue associated with * this object if one exists. Otherwise returns null. * * @return the AccessibleValue, or null */ public AccessibleValue getAccessibleValue() { return getCurrentAccessibleContext().getAccessibleValue(); } // AccessibleComponent methods ========== /** * Gets the background color of this object. * * @return the background color, if supported, of the object; * otherwise, null */ public Color getBackground() { AccessibleContext ac = getCurrentAccessibleContext(); if (ac instanceof AccessibleComponent) { return ((AccessibleComponent) ac).getBackground(); } else { Component c = getCurrentComponent(); if (c != null) { return c.getBackground(); } else { return null; } } } /** * Sets the background color of this object. * * @param c the new Color for the background */ public void setBackground(Color c) { AccessibleContext ac = getCurrentAccessibleContext(); if (ac instanceof AccessibleComponent) { ((AccessibleComponent) ac).setBackground(c); } else { Component cp = getCurrentComponent(); if (cp != null) { cp.setBackground(c); } } } /** * Gets the foreground color of this object. * * @return the foreground color, if supported, of the object; * otherwise, null */ public Color getForeground() { AccessibleContext ac = getCurrentAccessibleContext(); if (ac instanceof AccessibleComponent) { return ((AccessibleComponent) ac).getForeground(); } else { Component c = getCurrentComponent(); if (c != null) { return c.getForeground(); } else { return null; } } } /** * Sets the foreground color of this object. * * @param c the new Color for the foreground */ public void setForeground(Color c) { AccessibleContext ac = getCurrentAccessibleContext(); if (ac instanceof AccessibleComponent) { ((AccessibleComponent) ac).setForeground(c); } else { Component cp = getCurrentComponent(); if (cp != null) { cp.setForeground(c); } } } /** * Gets the Cursor of this object. * * @return the Cursor, if supported, * of the object; otherwise, null */ public Cursor getCursor() { AccessibleContext ac = getCurrentAccessibleContext(); if (ac instanceof AccessibleComponent) { return ((AccessibleComponent) ac).getCursor(); } else { Component c = getCurrentComponent(); if (c != null) { return c.getCursor(); } else { Accessible ap = getAccessibleParent(); if (ap instanceof AccessibleComponent) { return ((AccessibleComponent) ap).getCursor(); } else { return null; } } } } /** * Sets the Cursor of this object. * * @param c the new Cursor for the object */ public void setCursor(Cursor c) { AccessibleContext ac = getCurrentAccessibleContext(); if (ac instanceof AccessibleComponent) { ((AccessibleComponent) ac).setCursor(c); } else { Component cp = getCurrentComponent(); if (cp != null) { cp.setCursor(c); } } } /** * Gets the Font of this object. * * @return the Font,if supported, * for the object; otherwise, null */ public Font getFont() { AccessibleContext ac = getCurrentAccessibleContext(); if (ac instanceof AccessibleComponent) { return ((AccessibleComponent) ac).getFont(); } else { Component c = getCurrentComponent(); if (c != null) { return c.getFont(); } else { return null; } } } /** * Sets the Font of this object. * * @param f the new Font for the object */ public void setFont(Font f) { AccessibleContext ac = getCurrentAccessibleContext(); if (ac instanceof AccessibleComponent) { ((AccessibleComponent) ac).setFont(f); } else { Component c = getCurrentComponent(); if (c != null) { c.setFont(f); } } } /** * Gets the FontMetrics of this object. * * @param f the Font * @return the FontMetrics object, if supported; * otherwise null * @see #getFont */ public FontMetrics getFontMetrics(Font f) { AccessibleContext ac = getCurrentAccessibleContext(); if (ac instanceof AccessibleComponent) { return ((AccessibleComponent) ac).getFontMetrics(f); } else { Component c = getCurrentComponent(); if (c != null) { return c.getFontMetrics(f); } else { return null; } } } /** * Determines if the object is enabled. * * @return true if object is enabled; otherwise, false */ public boolean isEnabled() { AccessibleContext ac = getCurrentAccessibleContext(); if (ac instanceof AccessibleComponent) { return ((AccessibleComponent) ac).isEnabled(); } else { Component c = getCurrentComponent(); if (c != null) { return c.isEnabled(); } else { return false; } } } /** * Sets the enabled state of the object. * * @param b if true, enables this object; otherwise, disables it */ public void setEnabled(boolean b) { AccessibleContext ac = getCurrentAccessibleContext(); if (ac instanceof AccessibleComponent) { ((AccessibleComponent) ac).setEnabled(b); } else { Component c = getCurrentComponent(); if (c != null) { c.setEnabled(b); } } } /** * Determines if this object is visible. Note: this means that the * object intends to be visible; however, it may not in fact be * showing on the screen because one of the objects that this object * is contained by is not visible. To determine if an object is * showing on the screen, use isShowing. * * @return true if object is visible; otherwise, false */ public boolean isVisible() { AccessibleContext ac = getCurrentAccessibleContext(); if (ac instanceof AccessibleComponent) { return ((AccessibleComponent) ac).isVisible(); } else { Component c = getCurrentComponent(); if (c != null) { return c.isVisible(); } else { return false; } } } /** * Sets the visible state of the object. * * @param b if true, shows this object; otherwise, hides it */ public void setVisible(boolean b) { AccessibleContext ac = getCurrentAccessibleContext(); if (ac instanceof AccessibleComponent) { ((AccessibleComponent) ac).setVisible(b); } else { Component c = getCurrentComponent(); if (c != null) { c.setVisible(b); } } } /** * Determines if the object is showing. This is determined * by checking the visibility of the object and ancestors * of the object. Note: this will return true even if the * object is obscured by another (for example, * it happens to be underneath a menu that was pulled down). * * @return true if the object is showing; otherwise, false */ public boolean isShowing() { AccessibleContext ac = getCurrentAccessibleContext(); if (ac instanceof AccessibleComponent) { if (ac.getAccessibleParent() != null) { return ((AccessibleComponent) ac).isShowing(); } else { // Fixes 4529616 - AccessibleJTableCell.isShowing() // returns false when the cell on the screen // if no parent return isVisible(); } } else { Component c = getCurrentComponent(); if (c != null) { return c.isShowing(); } else { return false; } } } /** * Checks whether the specified point is within this * object's bounds, where the point's x and y coordinates * are defined to be relative to the coordinate system of * the object. * * @param p the Point relative to the * coordinate system of the object * @return true if object contains Point; * otherwise false */ public boolean contains(Point p) { AccessibleContext ac = getCurrentAccessibleContext(); if (ac instanceof AccessibleComponent) { Rectangle r = ((AccessibleComponent) ac).getBounds(); return r.contains(p); } else { Component c = getCurrentComponent(); if (c != null) { Rectangle r = c.getBounds(); return r.contains(p); } else { return getBounds().contains(p); } } } /** * Returns the location of the object on the screen. * * @return location of object on screen -- can be * null if this object is not on the screen */ public Point getLocationOnScreen() { if (parent != null && parent.isShowing()) { Point parentLocation = parent.getLocationOnScreen(); Point componentLocation = getLocation(); componentLocation.translate(parentLocation.x, parentLocation.y); return componentLocation; } else { return null; } } /** * Gets the location of the object relative to the parent * in the form of a point specifying the object's * top-left corner in the screen's coordinate space. * * @return an instance of Point representing * the top-left corner of the object's bounds in the * coordinate space of the screen; null if * this object or its parent are not on the screen */ public Point getLocation() { if (parent != null) { Rectangle r = parent.getHeaderRect(column); if (r != null) { return r.getLocation(); } } return null; } /** * Sets the location of the object relative to the parent. * @param p the new position for the top-left corner * @see #getLocation */ public void setLocation(Point p) { } /** * Gets the bounds of this object in the form of a Rectangle object. * The bounds specify this object's width, height, and location * relative to its parent. * * @return A rectangle indicating this component's bounds; null if * this object is not on the screen. * @see #contains */ public Rectangle getBounds() { if (parent != null) { return parent.getHeaderRect(column); } else { return null; } } /** * Sets the bounds of this object in the form of a Rectangle object. * The bounds specify this object's width, height, and location * relative to its parent. * * @param r rectangle indicating this component's bounds * @see #getBounds */ public void setBounds(Rectangle r) { AccessibleContext ac = getCurrentAccessibleContext(); if (ac instanceof AccessibleComponent) { ((AccessibleComponent) ac).setBounds(r); } else { Component c = getCurrentComponent(); if (c != null) { c.setBounds(r); } } } /** * Returns the size of this object in the form of a Dimension object. * The height field of the Dimension object contains this object's * height, and the width field of the Dimension object contains this * object's width. * * @return A Dimension object that indicates the size of this component; * null if this object is not on the screen * @see #setSize */ public Dimension getSize() { if (parent != null) { Rectangle r = parent.getHeaderRect(column); if (r != null) { return r.getSize(); } } return null; } /** * Resizes this object so that it has width and height. * * @param d The dimension specifying the new size of the object. * @see #getSize */ public void setSize (Dimension d) { AccessibleContext ac = getCurrentAccessibleContext(); if (ac instanceof AccessibleComponent) { ((AccessibleComponent) ac).setSize(d); } else { Component c = getCurrentComponent(); if (c != null) { c.setSize(d); } } } /** * Returns the Accessible child, if one exists, contained at the local * coordinate Point. * * @param p The point relative to the coordinate system of this object. * @return the Accessible, if it exists, at the specified location; * otherwise null */ public Accessible getAccessibleAt(Point p) { AccessibleContext ac = getCurrentAccessibleContext(); if (ac instanceof AccessibleComponent) { return ((AccessibleComponent) ac).getAccessibleAt(p); } else { return null; } } /** * Returns whether this object can accept focus or not. Objects that * can accept focus will also have the AccessibleState.FOCUSABLE state * set in their AccessibleStateSets. * * @return true if object can accept focus; otherwise false * @see AccessibleContext#getAccessibleStateSet * @see AccessibleState#FOCUSABLE * @see AccessibleState#FOCUSED * @see AccessibleStateSet */ public boolean isFocusTraversable() { AccessibleContext ac = getCurrentAccessibleContext(); if (ac instanceof AccessibleComponent) { return ((AccessibleComponent) ac).isFocusTraversable(); } else { Component c = getCurrentComponent(); if (c != null) { return c.isFocusTraversable(); } else { return false; } } } /** * Requests focus for this object. If this object cannot accept focus, * nothing will happen. Otherwise, the object will attempt to take * focus. * @see #isFocusTraversable */ public void requestFocus() { AccessibleContext ac = getCurrentAccessibleContext(); if (ac instanceof AccessibleComponent) { ((AccessibleComponent) ac).requestFocus(); } else { Component c = getCurrentComponent(); if (c != null) { c.requestFocus(); } } } /** * Adds the specified focus listener to receive focus events from this * component. * * @param l the focus listener * @see #removeFocusListener */ public void addFocusListener(FocusListener l) { AccessibleContext ac = getCurrentAccessibleContext(); if (ac instanceof AccessibleComponent) { ((AccessibleComponent) ac).addFocusListener(l); } else { Component c = getCurrentComponent(); if (c != null) { c.addFocusListener(l); } } } /** * Removes the specified focus listener so it no longer receives focus * events from this component. * * @param l the focus listener * @see #addFocusListener */ public void removeFocusListener(FocusListener l) { AccessibleContext ac = getCurrentAccessibleContext(); if (ac instanceof AccessibleComponent) { ((AccessibleComponent) ac).removeFocusListener(l); } else { Component c = getCurrentComponent(); if (c != null) { c.removeFocusListener(l); } } } } // inner class AccessibleJTableHeaderCell } // inner class AccessibleJTable } // End of Class JTable