/*
* Copyright (c) 1997, 2019, 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
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*
* 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).
*
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package javax.swing;
import java.util.*;
import java.applet.Applet;
import java.awt.*;
import java.awt.event.*;
import java.awt.print.*;
import java.beans.JavaBean;
import java.beans.BeanProperty;
import java.beans.PropertyChangeEvent;
import java.beans.PropertyChangeListener;
import java.io.ObjectOutputStream;
import java.io.ObjectInputStream;
import java.io.IOException;
import java.io.InvalidObjectException;
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 java.util.List;
import javax.print.attribute.*;
import javax.print.PrintService;
import sun.awt.AWTAccessor;
import sun.awt.AWTAccessor.MouseEventAccessor;
import sun.reflect.misc.ReflectUtil;
import sun.swing.SwingUtilities2;
import sun.swing.SwingUtilities2.Section;
import static sun.swing.SwingUtilities2.Section.*;
import sun.swing.PrintingStatus;
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 Integer.valueOf(row*col); }
};
JTable table = new JTable(dataModel);
JScrollPane scrollpane = new JScrollPane(table);
JTable
s are typically placed inside of a JScrollPane
. By default, a JTable
will adjust its width such that a horizontal scrollbar is unnecessary. To allow for a horizontal scrollbar, invoke setAutoResizeMode
with 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 getTableHeader
and display it separately.
To enable sorting and filtering of rows, use a RowSorter
. You can set up a row sorter in either of two ways:
- Directly set the
RowSorter
. For example: table.setRowSorter(new TableRowSorter(model))
. - Set the
autoCreateRowSorter
property to true
, so that the JTable
creates a RowSorter
for you. For example: setAutoCreateRowSorter(true)
.
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 Vector
s of Object
s 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 JTable
s 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 print()
methods allow for quick and easy addition of printing support to your application. In addition, a new getPrintable
method is available for more advanced printing needs.
As for all JComponent
classes, you can use InputMap
and ActionMap
to associate an Action
object with a 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 XMLEncoder
.
Author: Philip Milne, Shannon Hickey (printing support) See Also: Since: 1.2
/**
* The <code>JTable</code> is used to display and edit regular two-dimensional tables
* of cells.
* See <a href="https://docs.oracle.com/javase/tutorial/uiswing/components/table.html">How to Use Tables</a>
* in <em>The Java Tutorial</em>
* for task-oriented documentation and examples of using <code>JTable</code>.
*
* <p>
* The <code>JTable</code> 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:
*
* <pre>
* TableModel dataModel = new AbstractTableModel() {
* public int getColumnCount() { return 10; }
* public int getRowCount() { return 10;}
* public Object getValueAt(int row, int col) { return Integer.valueOf(row*col); }
* };
* JTable table = new JTable(dataModel);
* JScrollPane scrollpane = new JScrollPane(table);
* </pre>
* <p>
* {@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 <code>JTable</code> in a standalone
* view (outside of a <code>JScrollPane</code>) and want the header
* displayed, you can get it using {@link #getTableHeader} and
* display it separately.
* <p>
* To enable sorting and filtering of rows, use a
* {@code RowSorter}.
* You can set up a row sorter in either of two ways:
* <ul>
* <li>Directly set the {@code RowSorter}. For example:
* {@code table.setRowSorter(new TableRowSorter(model))}.
* <li>Set the {@code autoCreateRowSorter}
* property to {@code true}, so that the {@code JTable}
* creates a {@code RowSorter} for
* you. For example: {@code setAutoCreateRowSorter(true)}.
* </ul>
* <p>
* When designing applications that use the <code>JTable</code> it is worth paying
* close attention to the data structures that will represent the table's data.
* The <code>DefaultTableModel</code> is a model implementation that
* uses a <code>Vector</code> of <code>Vector</code>s of <code>Object</code>s to
* store the cell values. As well as copying the data from an
* application into the <code>DefaultTableModel</code>,
* it is also possible to wrap the data in the methods of the
* <code>TableModel</code> interface so that the data can be passed to the
* <code>JTable</code> 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 <code>AbstractTableModel</code>
* or the <code>DefaultTableModel</code> is to use the <code>AbstractTableModel</code>
* as the base class for creating subclasses and the <code>DefaultTableModel</code>
* when subclassing is not required.
* <p>
* The "TableExample" directory in the demo area of the source distribution
* gives a number of complete examples of <code>JTable</code> usage,
* covering how the <code>JTable</code> 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.
* <p>
* The <code>JTable</code> uses integers exclusively to refer to both the rows and the columns
* of the model that it displays. The <code>JTable</code> simply takes a tabular range of cells
* and uses <code>getValueAt(int, int)</code> to retrieve the
* values from the model during painting. It is important to remember that
* the column and row indexes returned by various <code>JTable</code> methods
* are in terms of the <code>JTable</code> (the view) and are not
* necessarily the same indexes used by the model.
* <p>
* By default, columns may be rearranged in the <code>JTable</code> 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 <code>JTable</code> maintains the new order of the columns
* internally and converts its column indices before querying the model.
* <p>
* So, when writing a <code>TableModel</code>, 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.
* <p>
* Similarly when using the sorting and filtering functionality
* provided by <code>RowSorter</code> the underlying
* <code>TableModel</code> does not need to know how to do sorting,
* rather <code>RowSorter</code> will handle it. Coordinate
* conversions will be necessary when using the row based methods of
* <code>JTable</code> with the underlying <code>TableModel</code>.
* All of <code>JTable</code>s row based methods are in terms of the
* <code>RowSorter</code>, which is not necessarily the same as that
* of the underlying <code>TableModel</code>. For example, the
* selection is always in terms of <code>JTable</code> so that when
* using <code>RowSorter</code> you will need to convert using
* <code>convertRowIndexToView</code> or
* <code>convertRowIndexToModel</code>. The following shows how to
* convert coordinates from <code>JTable</code> to that of the
* underlying model:
* <pre>
* 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
* </pre>
* <p>
* By default if sorting is enabled <code>JTable</code> 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.
* <p>
* J2SE 5 adds methods to <code>JTable</code> 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.
* <p>
* As for all <code>JComponent</code> 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.
* <p>
* <strong>Warning:</strong> Swing is not thread safe. For more
* information see <a
* href="package-summary.html#threading">Swing's Threading
* Policy</a>.
* <p>
* <strong>Warning:</strong>
* Serialized objects of this class will not be compatible with
* future Swing releases. The current serialization support is
* appropriate for short term storage or RMI between applications running
* the same version of Swing. As of 1.4, support for long term storage
* of all JavaBeans
* has been added to the <code>java.beans</code> package.
* Please see {@link java.beans.XMLEncoder}.
*
* @author Philip Milne
* @author Shannon Hickey (printing support)
* @see javax.swing.table.DefaultTableModel
* @see javax.swing.table.TableRowSorter
* @since 1.2
*/
/* The first versions of the JTable, contained in Swing-0.1 through
* Swing-0.4, were written by Alan Chung.
*/
@JavaBean(defaultProperty = "UI", description = "A component which displays data in a two dimensional grid.")
@SwingContainer(false)
@SuppressWarnings("serial") // Same-version serialization only
public class JTable extends JComponent implements TableModelListener, Scrollable,
TableColumnModelListener, ListSelectionListener, CellEditorListener,
Accessible, RowSorterListener
{
//
// Static Constants
//
See Also: - getUIClassID
- readObject
/**
* @see #getUIClassID
* @see #readObject
*/
private static final String uiClassID = "TableUI";
Do not adjust column widths automatically; use a horizontal scrollbar instead. /** 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. /** 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. /** 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. /** 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. /** During all resize operations, proportionately resize all columns. */
public static final int AUTO_RESIZE_ALL_COLUMNS = 4;
Printing modes, used in printing JTable
s.
See Also: - print(PrintMode, MessageFormat, MessageFormat, boolean, PrintRequestAttributeSet, boolean)
- getPrintable
Since: 1.5
/**
* Printing modes, used in printing <code>JTable</code>s.
*
* @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.
/**
* 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.
/**
* 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. /** The <code>TableModel</code> of the table. */
protected TableModel dataModel;
The TableColumnModel
of the table. /** The <code>TableColumnModel</code> of the table. */
protected TableColumnModel columnModel;
The ListSelectionModel
of the table, used to keep track of row selections. /** The <code>ListSelectionModel</code> of the table, used to keep track of row selections. */
protected ListSelectionModel selectionModel;
The TableHeader
working with the table. /** The <code>TableHeader</code> working with the table. */
protected JTableHeader tableHeader;
The height in pixels of each row in the table. /** 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. /** The height in pixels of the margin between the cells in each row. */
protected int rowMargin;
The color of the grid. /** The color of the grid. */
protected Color gridColor;
The table draws horizontal lines between cells if showHorizontalLines
is true. /** The table draws horizontal lines between cells if <code>showHorizontalLines</code> is true. */
protected boolean showHorizontalLines;
The table draws vertical lines between cells if showVerticalLines
is true. /** The table draws vertical lines between cells if <code>showVerticalLines</code> 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.
/**
* 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.
/**
* The table will query the <code>TableModel</code> 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. /** Used by the <code>Scrollable</code> interface to determine the initial visible area. */
protected Dimension preferredViewportSize;
True if row selection is allowed in this table. /** 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
.
/**
* Obsolete as of Java 2 platform v1.3. Please use the
* <code>rowSelectionAllowed</code> property and the
* <code>columnSelectionAllowed</code> property of the
* <code>columnModel</code> instead. Or use the
* method <code>getCellSelectionEnabled</code>.
*/
/*
* 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. /** If editing, the <code>Component</code> that is handling the editing. */
protected transient 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. null
if the table isn't currently editing. /**
* 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.
*/
protected transient TableCellEditor cellEditor;
Identifies the column of the cell being edited. /** Identifies the column of the cell being edited. */
protected transient int editingColumn;
Identifies the row of the cell being edited. /** Identifies the row of the cell being edited. */
protected transient int editingRow;
A table of objects that display the contents of a cell,
indexed by class as declared in getColumnClass
in the TableModel
interface.
/**
* A table of objects that display the contents of a cell,
* indexed by class as declared in <code>getColumnClass</code>
* in the <code>TableModel</code> interface.
*/
protected transient Hashtable<Object, Object> defaultRenderersByColumnClass;
// Logicaly, the above is a Hashtable<Class<?>, TableCellRenderer>.
// It is declared otherwise to accomodate using UIDefaults.
A table of objects that display and edit the contents of a cell,
indexed by class as declared in getColumnClass
in the TableModel
interface.
/**
* A table of objects that display and edit the contents of a cell,
* indexed by class as declared in <code>getColumnClass</code>
* in the <code>TableModel</code> interface.
*/
protected transient Hashtable<Object, Object> defaultEditorsByColumnClass;
// Logicaly, the above is a Hashtable<Class<?>, TableCellEditor>.
// It is declared otherwise to accomodate using UIDefaults.
The foreground color of selected cells. /** The foreground color of selected cells. */
protected Color selectionForeground;
The background color of selected cells. /** 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.
/**
* 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.
/**
* 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.
/**
* To communicate errors between threads during printing.
*/
private Throwable printError;
True when setRowHeight(int) has been invoked.
/**
* True when setRowHeight(int) has been invoked.
*/
private boolean isRowHeightSet;
If true, on a sort the selection is reset.
/**
* If true, on a sort the selection is reset.
*/
private boolean updateSelectionOnSort;
Information used in sorting.
/**
* Information used in sorting.
*/
private transient SortManager sortManager;
If true, when sorterChanged is invoked it's value is ignored.
/**
* If true, when sorterChanged is invoked it's value is ignored.
*/
private boolean ignoreSortChange;
Whether or not sorterChanged has been invoked.
/**
* Whether or not sorterChanged has been invoked.
*/
private boolean sorterChanged;
If true, any time the model changes a new RowSorter is set.
/**
* 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 Also: - setFillsViewportHeight
- getScrollableTracksViewportHeight
/**
* Whether or not the table always fills the viewport height.
* @see #setFillsViewportHeight
* @see #getScrollableTracksViewportHeight
*/
private boolean fillsViewportHeight;
The drop mode for this component.
/**
* The drop mode for this component.
*/
private DropMode dropMode = DropMode.USE_SELECTION;
The drop location.
/**
* The drop location.
*/
private transient DropLocation dropLocation;
Flag to indicate UI update is in progress
/**
* Flag to indicate UI update is in progress
*/
private transient boolean updateInProgress;
A subclass of TransferHandler.DropLocation
representing
a drop location for a JTable
.
See Also: - getDropLocation
Since: 1.6
/**
* A subclass of <code>TransferHandler.DropLocation</code> representing
* a drop location for a <code>JTable</code>.
*
* @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.
Returns: the drop row
/**
* Returns the row index where a dropped item should be placed in the
* table. Interpretation of the value depends on the return of
* <code>isInsertRow()</code>. If that method returns
* <code>true</code> 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.
* <p>
* <code>-1</code> 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.
Returns: the drop row
/**
* Returns the column index where a dropped item should be placed in the
* table. Interpretation of the value depends on the return of
* <code>isInsertColumn()</code>. If that method returns
* <code>true</code> 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.
* <p>
* <code>-1</code> 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.
Returns: whether or not this is an insert row
/**
* 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.
Returns: whether or not this is an insert column
/**
* 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.
Returns: a string representation of this drop location
/**
* 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 Also: - createDefaultDataModel
- createDefaultColumnModel
- createDefaultSelectionModel
/**
* Constructs a default <code>JTable</code> 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.
Params: - dm – the data model for the table
See Also:
/**
* Constructs a <code>JTable</code> that is initialized with
* <code>dm</code> 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.
Params: - dm – the data model for the table
- cm – the column model for the table
See Also:
/**
* Constructs a <code>JTable</code> that is initialized with
* <code>dm</code> as the data model, <code>cm</code>
* 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
.
Params: - dm – the data model for the table
- cm – the column model for the table
- sm – the row selection model for the table
See Also:
/**
* Constructs a <code>JTable</code> that is initialized with
* <code>dm</code> as the data model, <code>cm</code> as the
* column model, and <code>sm</code> as the selection model.
* If any of the parameters are <code>null</code> this method
* will initialize the table with the corresponding default model.
* The <code>autoCreateColumnsFromModel</code> flag is set to false
* if <code>cm</code> is non-null, otherwise it is set to true
* and the column model is populated with suitable
* <code>TableColumns</code> for the columns in <code>dm</code>.
*
* @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.
Params: - numRows – the number of rows the table holds
- numColumns – the number of columns the table holds
See Also:
/**
* Constructs a <code>JTable</code> with <code>numRows</code>
* and <code>numColumns</code> of empty cells using
* <code>DefaultTableModel</code>. 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);
Params: - rowData – the data for the new table
- columnNames – names of each column
/**
* Constructs a <code>JTable</code> to display the values in the
* <code>Vector</code> of <code>Vectors</code>, <code>rowData</code>,
* with column names, <code>columnNames</code>. The
* <code>Vectors</code> contained in <code>rowData</code>
* 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:
*
* <pre>((Vector)rowData.elementAt(1)).elementAt(5);</pre>
*
* @param rowData the data for the new table
* @param columnNames names of each column
*/
@SuppressWarnings("rawtypes")
public JTable(Vector<? extends 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
.
Params: - rowData – the data for the new table
- columnNames – names of each column
/**
* Constructs a <code>JTable</code> to display the values in the two dimensional array,
* <code>rowData</code>, with column names, <code>columnNames</code>.
* <code>rowData</code> is an array of rows, so the value of the cell at row 1,
* column 5 can be obtained with the following code:
*
* <pre> rowData[1][5]; </pre>
* <p>
* All rows must be of the same length as <code>columnNames</code>.
*
* @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 Also: - configureEnclosingScrollPane
/**
* Calls the <code>configureEnclosingScrollPane</code> 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 Also: - addNotify
/**
* If this <code>JTable</code> is the <code>viewportView</code> of an enclosing <code>JScrollPane</code>
* (the usual situation), configure this <code>ScrollPane</code> by, amongst other things,
* installing the table's <code>tableHeader</code> as the <code>columnHeaderView</code> of the scroll pane.
* When a <code>JTable</code> is added to a <code>JScrollPane</code> in the usual way,
* using <code>new JScrollPane(myTable)</code>, <code>addNotify</code> is
* called in the <code>JTable</code> (when the table is added to the viewport).
* <code>JTable</code>'s <code>addNotify</code> 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.
/**
* 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 Also: - unconfigureEnclosingScrollPane
/**
* Calls the <code>unconfigureEnclosingScrollPane</code> 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 Also: - removeNotify
- configureEnclosingScrollPane
Since: 1.3
/**
* Reverses the effect of <code>configureEnclosingScrollPane</code>
* by replacing the <code>columnHeaderView</code> of the enclosing
* scroll pane with <code>null</code>. <code>JTable</code>'s
* <code>removeNotify</code> 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)
.
Params: - aTable – a
JTable
to be used for the scroll pane
Returns: a JScrollPane
created using aTable
Deprecated: As of Swing version 1.0.2,
replaced by new JScrollPane(aTable)
.
/**
* Equivalent to <code>new JScrollPane(aTable)</code>.
*
* @param aTable a {@code JTable} to be used for the scroll pane
* @return a {@code JScrollPane} created using {@code aTable}
* @deprecated As of Swing version 1.0.2,
* replaced by <code>new JScrollPane(aTable)</code>.
*/
@Deprecated
public static 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
.
Params: - tableHeader – new tableHeader
See Also:
/**
* Sets the <code>tableHeader</code> working with this <code>JTable</code> to <code>newHeader</code>.
* It is legal to have a <code>null</code> <code>tableHeader</code>.
*
* @param tableHeader new tableHeader
* @see #getTableHeader
*/
@BeanProperty(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
.
See Also: Returns: the tableHeader
used by this table
/**
* Returns the <code>tableHeader</code> used by this <code>JTable</code>.
*
* @return the <code>tableHeader</code> 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.
Params: - rowHeight – new row height
Throws: - IllegalArgumentException – if
rowHeight
is
less than 1
See Also:
/**
* Sets the height, in pixels, of all cells to <code>rowHeight</code>,
* 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 <code>rowHeight</code> is
* less than 1
* @see #getRowHeight
*/
@BeanProperty(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.
See Also: Returns: the height in pixels of a table row
/**
* 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.
Params: - row – the row whose height is being
changed
- rowHeight – new row height, in pixels
Throws: - IllegalArgumentException – if
rowHeight
is
less than 1
Since: 1.3
/**
* Sets the height for <code>row</code> to <code>rowHeight</code>,
* 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 <code>rowHeight</code> is
* less than 1
* @since 1.3
*/
@BeanProperty(description
= "The height in pixels of the cells in <code>row</code>")
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
.
Params: - row – the row whose height is to be returned
Returns: the height, in pixels, of the cells in the row Since: 1.3
/**
* Returns the height, in pixels, of the cells in <code>row</code>.
* @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.
Params: - rowMargin – the number of pixels between cells in a row
See Also:
/**
* Sets the amount of empty space between cells in adjacent rows.
*
* @param rowMargin the number of pixels between cells in a row
* @see #getRowMargin
*/
@BeanProperty(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
.
See Also: Returns: the number of pixels between cells in a row
/**
* Gets the amount of empty space, in pixels, between cells. Equivalent to:
* <code>getIntercellSpacing().height</code>.
* @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
.
Params: - intercellSpacing – a
Dimension
specifying the new width
and height between cells
See Also:
/**
* Sets the <code>rowMargin</code> and the <code>columnMargin</code> --
* the height and width of the space between cells -- to
* <code>intercellSpacing</code>.
*
* @param intercellSpacing a <code>Dimension</code>
* specifying the new width
* and height between cells
* @see #getIntercellSpacing
*/
@BeanProperty(bound = false, 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.
See Also: Returns: the horizontal and vertical spacing between cells
/**
* 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.
Params: - gridColor – the new color of the grid lines
Throws: - IllegalArgumentException – if
gridColor
is null
See Also:
/**
* Sets the color used to draw grid lines to <code>gridColor</code> and redisplays.
* The default color is look and feel dependent.
*
* @param gridColor the new color of the grid lines
* @exception IllegalArgumentException if <code>gridColor</code> is <code>null</code>
* @see #getGridColor
*/
@BeanProperty(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.
See Also: Returns: the color used to draw grid lines
/**
* 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.
Params: - showGrid – true if table view should draw grid lines
See Also:
/**
* Sets whether the table draws grid lines around cells.
* If <code>showGrid</code> is true it does; if it is false it doesn't.
* There is no <code>getShowGrid</code> method as this state is held
* in two variables -- <code>showHorizontalLines</code> and <code>showVerticalLines</code> --
* each of which can be queried independently.
*
* @param showGrid true if table view should draw grid lines
*
* @see #setShowVerticalLines
* @see #setShowHorizontalLines
*/
@BeanProperty(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.
Params: - showHorizontalLines – true if table view should draw horizontal lines
See Also:
/**
* Sets whether the table draws horizontal lines between cells.
* If <code>showHorizontalLines</code> 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
*/
@BeanProperty(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.
Params: - showVerticalLines – true if table view should draw vertical lines
See Also:
/**
* Sets whether the table draws vertical lines between cells.
* If <code>showVerticalLines</code> 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
*/
@BeanProperty(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.
See Also: Returns: true if the table draws horizontal lines between cells, false if it
doesn't
/**
* 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.
See Also: Returns: true if the table draws vertical lines between cells, false if it
doesn't
/**
* 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 doLayout
. Params: - 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 Also:
/**
* 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
*/
@BeanProperty(enumerationValues = {
"JTable.AUTO_RESIZE_OFF",
"JTable.AUTO_RESIZE_NEXT_COLUMN",
"JTable.AUTO_RESIZE_SUBSEQUENT_COLUMNS",
"JTable.AUTO_RESIZE_LAST_COLUMN",
"JTable.AUTO_RESIZE_ALL_COLUMNS"}, description
= "Whether the columns should adjust themselves automatically.")
public void setAutoResizeMode(int mode) {
if (isValidAutoResizeMode(mode)) {
int old = autoResizeMode;
autoResizeMode = mode;
resizeAndRepaint();
if (tableHeader != null) {
tableHeader.resizeAndRepaint();
}
firePropertyChange("autoResizeMode", old, autoResizeMode);
}
}
private static boolean isValidAutoResizeMode(int mode) {
return (mode == AUTO_RESIZE_OFF)
|| (mode == AUTO_RESIZE_NEXT_COLUMN)
|| (mode == AUTO_RESIZE_SUBSEQUENT_COLUMNS)
|| (mode == AUTO_RESIZE_LAST_COLUMN)
|| (mode == AUTO_RESIZE_ALL_COLUMNS);
}
Returns the auto resize mode of the table. The default mode
is AUTO_RESIZE_SUBSEQUENT_COLUMNS.
See Also: Returns: the autoResizeMode of the table
/**
* 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.
Params: - autoCreateColumnsFromModel – true if
JTable
should automatically create columns
See Also:
/**
* Sets this table's <code>autoCreateColumnsFromModel</code> flag.
* This method calls <code>createDefaultColumnsFromModel</code> if
* <code>autoCreateColumnsFromModel</code> changes from false to true.
*
* @param autoCreateColumnsFromModel true if <code>JTable</code> should automatically create columns
* @see #getAutoCreateColumnsFromModel
* @see #createDefaultColumnsFromModel
*/
@BeanProperty(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.
See Also: Returns: the autoCreateColumnsFromModel of the table
/**
* Determines whether the table will create default columns from the model.
* If true, <code>setModel</code> will clear any existing columns and
* create new columns from the new model. Also, if the event in
* the <code>tableChanged</code> 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 Also: - getAutoCreateColumnsFromModel
/**
* Creates default columns for the table from
* the data model using the <code>getColumnCount</code> method
* defined in the <code>TableModel</code> interface.
* <p>
* 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.
Params: - columnClass – set the default cell renderer for this columnClass
- renderer – default cell renderer to be used for this
columnClass
See Also:
/**
* Sets a default cell renderer to be used if no renderer has been set in
* a <code>TableColumn</code>. If renderer is <code>null</code>,
* 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.
Params: - columnClass – return the default cell renderer
for this columnClass
See Also: Returns: the renderer for this columnClass
/**
* Returns the cell renderer to be used when no renderer has been set in
* a <code>TableColumn</code>. During the rendering of cells the renderer is fetched from
* a <code>Hashtable</code> of entries according to the class of the cells in the column. If
* there is no entry for this <code>columnClass</code> the method returns
* the entry for the most specific superclass. The <code>JTable</code> installs entries
* for <code>Object</code>, <code>Number</code>, and <code>Boolean</code>, 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.
Params: - columnClass – set the default cell editor for this columnClass
- editor – default cell editor to be used for this columnClass
See Also:
/**
* Sets a default cell editor to be used if no editor has been set in
* a <code>TableColumn</code>. If no editing is required in a table, or a
* particular column in a table, uses the <code>isCellEditable</code>
* method in the <code>TableModel</code> interface to ensure that this
* <code>JTable</code> will not start an editor in these columns.
* If editor is <code>null</code>, 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.
Params: - columnClass – return the default cell editor for this columnClass
See Also: Returns: the default cell editor to be used for this columnClass
/**
* Returns the editor to be used when no editor has been set in
* a <code>TableColumn</code>. During the editing of cells the editor is fetched from
* a <code>Hashtable</code> of entries according to the class of the cells in the column. If
* there is no entry for this <code>columnClass</code> the method returns
* the entry for the most specific superclass. The <code>JTable</code> installs entries
* for <code>Object</code>, <code>Number</code>, and <code>Boolean</code>, 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 true
, and the table's TransferHandler
needs to be non-null
. The default value of the dragEnabled
property is 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 TableUI
. When automatic drag handling is enabled, most look and feels (including those that subclass 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 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 exportAsDrag
on the table's TransferHandler
.
Params: - b – whether or not to enable automatic drag handling
Throws: - HeadlessException – if
b
is true
and
GraphicsEnvironment.isHeadless()
returns true
See Also: Since: 1.4
/**
* 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}.
* <p>
* 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.
* <p>
* 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
* <code>b</code> is <code>true</code> and
* <code>GraphicsEnvironment.isHeadless()</code>
* returns <code>true</code>
* @see java.awt.GraphicsEnvironment#isHeadless
* @see #getDragEnabled
* @see #setTransferHandler
* @see TransferHandler
* @since 1.4
*/
@BeanProperty(bound = false, description
= "determines whether automatic drag handling is enabled")
public void setDragEnabled(boolean b) {
checkDragEnabled(b);
dragEnabled = b;
}
private void checkDragEnabled(boolean b) {
if (b && GraphicsEnvironment.isHeadless()) {
throw new HeadlessException();
}
}
Returns whether or not automatic drag handling is enabled.
See Also: Returns: the value of the dragEnabled
property Since: 1.4
/**
* 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:
DropMode.USE_SELECTION
DropMode.ON
DropMode.INSERT
DropMode.INSERT_ROWS
DropMode.INSERT_COLS
DropMode.ON_OR_INSERT
DropMode.ON_OR_INSERT_ROWS
DropMode.ON_OR_INSERT_COLS
The drop mode is only meaningful if this component has a
TransferHandler
that accepts drops.
Params: - dropMode – the drop mode to use
Throws: - IllegalArgumentException – if the drop mode is unsupported
or
null
See Also: Since: 1.6
/**
* Sets the drop mode for this component. For backward compatibility,
* the default for this property is <code>DropMode.USE_SELECTION</code>.
* Usage of one of the other modes is recommended, however, for an
* improved user experience. <code>DropMode.ON</code>, for instance,
* offers similar behavior of showing items as selected, but does so without
* affecting the actual selection in the table.
* <p>
* <code>JTable</code> supports the following drop modes:
* <ul>
* <li><code>DropMode.USE_SELECTION</code></li>
* <li><code>DropMode.ON</code></li>
* <li><code>DropMode.INSERT</code></li>
* <li><code>DropMode.INSERT_ROWS</code></li>
* <li><code>DropMode.INSERT_COLS</code></li>
* <li><code>DropMode.ON_OR_INSERT</code></li>
* <li><code>DropMode.ON_OR_INSERT_ROWS</code></li>
* <li><code>DropMode.ON_OR_INSERT_COLS</code></li>
* </ul>
* <p>
* The drop mode is only meaningful if this component has a
* <code>TransferHandler</code> that accepts drops.
*
* @param dropMode the drop mode to use
* @throws IllegalArgumentException if the drop mode is unsupported
* or <code>null</code>
* @see #getDropMode
* @see #getDropLocation
* @see #setTransferHandler
* @see TransferHandler
* @since 1.6
*/
public final void setDropMode(DropMode dropMode) {
checkDropMode(dropMode);
this.dropMode = dropMode;
}
private static void checkDropMode(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:
return;
}
}
throw new IllegalArgumentException(dropMode
+ ": Unsupported drop mode for table");
}
Returns the drop mode for this component.
See Also: Returns: the drop mode for this component Since: 1.6
/**
* 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.
Params: - p – the point to calculate a drop location for
Returns: the drop location, or null
/**
* 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 <code>null</code>
*/
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.
Params: - location – the drop location (as calculated by
dropLocationForPoint
) or null
if there's no longer a valid drop location - state – the state object saved earlier for this component,
or
null
- forDrop – whether or not the method is being called because an
actual drop occurred
Returns: any saved state for this component, or null
if none
/**
* 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:
* <p>
* 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 <code>null</code>. 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 <code>null</code> since there's
* no longer anything to store.
*
* @param location the drop location (as calculated by
* <code>dropLocationForPoint</code>) or <code>null</code>
* if there's no longer a valid drop location
* @param state the state object saved earlier for this component,
* or <code>null</code>
* @param forDrop whether or not the method is being called because an
* actual drop occurred
* @return any saved state for this component, or <code>null</code> 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 null
if no location is to currently be shown. This method is not meant for querying the drop location from a TransferHandler
, as the drop location is only set after the 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.
See Also: Returns: the drop location Since: 1.6
/**
* 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.
* <p>
* 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 <code>canImport</code>
* has returned and has allowed for the location to be shown.
* <p>
* 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
*/
@BeanProperty(bound = false)
public final DropLocation getDropLocation() {
return dropLocation;
}
Specifies whether a RowSorter
should be created for the table whenever its model changes. When setAutoCreateRowSorter(true)
is invoked, a
TableRowSorter
is immediately created and installed on the table. While the autoCreateRowSorter
property remains true
, every time the model is changed, a new
TableRowSorter
is created and set as the table's row sorter. The default value for the autoCreateRowSorter
property is false
.
Params: - autoCreateRowSorter – whether or not a
RowSorter
should be automatically created
See Also: Since: 1.6
/**
* Specifies whether a {@code RowSorter} should be created for the
* table whenever its model changes.
* <p>
* 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
* @since 1.6
*/
@BeanProperty(preferred = true, description
= "Whether or not to turn on sorting by default.")
public void setAutoCreateRowSorter(boolean autoCreateRowSorter) {
boolean oldValue = this.autoCreateRowSorter;
this.autoCreateRowSorter = autoCreateRowSorter;
if (autoCreateRowSorter) {
setRowSorter(new TableRowSorter<TableModel>(getModel()));
}
firePropertyChange("autoCreateRowSorter", oldValue,
autoCreateRowSorter);
}
Returns true
if whenever the model changes, a new RowSorter
should be created and installed as the table's sorter; otherwise, returns false
. Returns: true if a RowSorter
should be created when the model changes Since: 1.6
/**
* 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.
Params: - update – whether or not to update the selection on sorting
Since: 1.6
/**
* 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
* @since 1.6
*/
@BeanProperty(expert = true, description
= "Whether or not to update the selection on sorting")
public void setUpdateSelectionOnSort(boolean update) {
if (updateSelectionOnSort != update) {
updateSelectionOnSort = update;
firePropertyChange("updateSelectionOnSort", !update, update);
}
}
Returns true if the selection should be updated after sorting.
Returns: whether to update the selection on a sort Since: 1.6
/**
* 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.
Params: - sorter – the
RowSorter
; null
turns
sorting off
See Also: Since: 1.6
/**
* Sets the <code>RowSorter</code>. <code>RowSorter</code> is used
* to provide sorting and filtering to a <code>JTable</code>.
* <p>
* This method clears the selection and resets any variable row heights.
* <p>
* This method fires a <code>PropertyChangeEvent</code> when appropriate,
* with the property name <code>"rowSorter"</code>. For
* backward-compatibility, this method fires an additional event with the
* property name <code>"sorter"</code>.
* <p>
* If the underlying model of the <code>RowSorter</code> differs from
* that of this <code>JTable</code> undefined behavior will result.
*
* @param sorter the <code>RowSorter</code>; <code>null</code> turns
* sorting off
* @see javax.swing.table.TableRowSorter
* @since 1.6
*/
@BeanProperty(description
= "The table's RowSorter")
public void setRowSorter(RowSorter<? extends TableModel> sorter) {
RowSorter<? extends TableModel> 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.
Returns: the object responsible for sorting Since: 1.6
/**
* Returns the object responsible for sorting.
*
* @return the object responsible for sorting
* @since 1.6
*/
public RowSorter<? extends TableModel> 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.
Params: - selectionMode – the mode used by the row and column selection models
See Also:
/**
* Sets the table's selection mode to allow only single selections, a single
* contiguous interval, or multiple intervals.
* <P>
* <b>Note:</b>
* <code>JTable</code> provides all the methods for handling
* column and row selection. When setting states,
* such as <code>setSelectionMode</code>, it not only
* updates the mode for the row selection model but also sets similar
* values in the selection model of the <code>columnModel</code>.
* If you want to have the row and column selection models operating
* in different modes, set them both directly.
* <p>
* Both the row and column selection models for <code>JTable</code>
* default to using a <code>DefaultListSelectionModel</code>
* so that <code>JTable</code> works the same way as the
* <code>JList</code>. See the <code>setSelectionMode</code> method
* in <code>JList</code> for details about the modes.
*
* @param selectionMode the mode used by the row and column selection models
* @see JList#setSelectionMode
*/
@BeanProperty(enumerationValues = {
"ListSelectionModel.SINGLE_SELECTION",
"ListSelectionModel.SINGLE_INTERVAL_SELECTION",
"ListSelectionModel.MULTIPLE_INTERVAL_SELECTION"}, description
= "The selection mode used by the row and column selection models.")
public void setSelectionMode(int selectionMode) {
clearSelection();
getSelectionModel().setSelectionMode(selectionMode);
getColumnModel().getSelectionModel().setSelectionMode(selectionMode);
}
Sets whether the rows in this model can be selected.
Params: - rowSelectionAllowed – true if this model will allow row selection
See Also:
/**
* Sets whether the rows in this model can be selected.
*
* @param rowSelectionAllowed true if this model will allow row selection
* @see #getRowSelectionAllowed
*/
@BeanProperty(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.
See Also: Returns: true if rows can be selected, otherwise false
/**
* 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.
Params: - columnSelectionAllowed – true if this model will allow column selection
See Also:
/**
* Sets whether the columns in this model can be selected.
*
* @param columnSelectionAllowed true if this model will allow column selection
* @see #getColumnSelectionAllowed
*/
@BeanProperty(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.
See Also: Returns: true if columns can be selected, otherwise false
/**
* 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.
Params: - cellSelectionEnabled – true if simultaneous row and column
selection is allowed
See Also:
/**
* 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 <code>isCellSelected</code> to
* change this default behavior. This method is equivalent to setting
* both the <code>rowSelectionAllowed</code> property and
* <code>columnSelectionAllowed</code> property of the
* <code>columnModel</code> to the supplied value.
*
* @param cellSelectionEnabled true if simultaneous row and column
* selection is allowed
* @see #getCellSelectionEnabled
* @see #isCellSelected
*/
@BeanProperty(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()
.
See Also: Returns: true if both row and column selection models are enabled
/**
* Returns true if both row and column selection models are enabled.
* Equivalent to <code>getRowSelectionAllowed() &&
* getColumnSelectionAllowed()</code>.
*
* @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.
/**
* 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.
/**
* 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.
Params: - index0 – one end of the interval
- index1 – the other end of the interval
Throws: - IllegalArgumentException – if
index0
or
index1
lie outside
[0, getRowCount()
-1]
/**
* Selects the rows from <code>index0</code> to <code>index1</code>,
* inclusive.
*
* @exception IllegalArgumentException if <code>index0</code> or
* <code>index1</code> lie outside
* [0, <code>getRowCount()</code>-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.
Params: - index0 – one end of the interval
- index1 – the other end of the interval
Throws: - IllegalArgumentException – if
index0
or
index1
lie outside
[0, getColumnCount()
-1]
/**
* Selects the columns from <code>index0</code> to <code>index1</code>,
* inclusive.
*
* @exception IllegalArgumentException if <code>index0</code> or
* <code>index1</code> lie outside
* [0, <code>getColumnCount()</code>-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.
Params: - index0 – one end of the interval
- index1 – the other end of the interval
Throws: - IllegalArgumentException – if
index0
or index1
lie outside [0, getRowCount()
-1]
/**
* Adds the rows from <code>index0</code> to <code>index1</code>, inclusive, to
* the current selection.
*
* @exception IllegalArgumentException if <code>index0</code> or <code>index1</code>
* lie outside [0, <code>getRowCount()</code>-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.
Params: - index0 – one end of the interval
- index1 – the other end of the interval
Throws: - IllegalArgumentException – if
index0
or
index1
lie outside
[0, getColumnCount()
-1]
/**
* Adds the columns from <code>index0</code> to <code>index1</code>,
* inclusive, to the current selection.
*
* @exception IllegalArgumentException if <code>index0</code> or
* <code>index1</code> lie outside
* [0, <code>getColumnCount()</code>-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.
Params: - index0 – one end of the interval
- index1 – the other end of the interval
Throws: - IllegalArgumentException – if
index0
or
index1
lie outside
[0, getRowCount()
-1]
/**
* Deselects the rows from <code>index0</code> to <code>index1</code>, inclusive.
*
* @exception IllegalArgumentException if <code>index0</code> or
* <code>index1</code> lie outside
* [0, <code>getRowCount()</code>-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.
Params: - index0 – one end of the interval
- index1 – the other end of the interval
Throws: - IllegalArgumentException – if
index0
or
index1
lie outside
[0, getColumnCount()
-1]
/**
* Deselects the columns from <code>index0</code> to <code>index1</code>, inclusive.
*
* @exception IllegalArgumentException if <code>index0</code> or
* <code>index1</code> lie outside
* [0, <code>getColumnCount()</code>-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.
Returns: the index of the first selected row
/**
* Returns the index of the first selected row, -1 if no row is selected.
* @return the index of the first selected row
*/
@BeanProperty(bound = false)
public int getSelectedRow() {
return selectionModel.getMinSelectionIndex();
}
Returns the index of the first selected column,
-1 if no column is selected.
Returns: the index of the first selected column
/**
* Returns the index of the first selected column,
* -1 if no column is selected.
* @return the index of the first selected column
*/
@BeanProperty(bound = false)
public int getSelectedColumn() {
return columnModel.getSelectionModel().getMinSelectionIndex();
}
Returns the indices of all selected rows.
See Also: Returns: an array of integers containing the indices of all selected rows,
or an empty array if no row is selected
/**
* 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
*/
@BeanProperty(bound = false)
public int[] getSelectedRows() {
return selectionModel.getSelectedIndices();
}
Returns the indices of all selected columns.
See Also: Returns: an array of integers containing the indices of all selected columns,
or an empty array if no column is selected
/**
* 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
*/
@BeanProperty(bound = false)
public int[] getSelectedColumns() {
return columnModel.getSelectedColumns();
}
Returns the number of selected rows.
Returns: the number of selected rows, 0 if no rows are selected
/**
* Returns the number of selected rows.
*
* @return the number of selected rows, 0 if no rows are selected
*/
@BeanProperty(bound = false)
public int getSelectedRowCount() {
return selectionModel.getSelectedItemsCount();
}
Returns the number of selected columns.
Returns: the number of selected columns, 0 if no columns are selected
/**
* Returns the number of selected columns.
*
* @return the number of selected columns, 0 if no columns are selected
*/
@BeanProperty(bound = false)
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.
Params: - row – a row in the row model
Returns: true if row
is a valid index and the row at
that index is selected (where 0 is the first row)
/**
* Returns true if the specified index is in the valid range of rows,
* and the row at that index is selected.
*
* @param row a row in the row model
* @return true if <code>row</code> 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.
Params: - column – the column in the column model
Returns: true if column
is a valid index and the column at
that index is selected (where 0 is the first column)
/**
* 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 <code>column</code> 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.
Params: - row – the row being queried
- column – the column being queried
Returns: 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
/**
* 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 <code>row</code> and <code>column</code> are valid indices
* and the cell at index <code>(row, column)</code> 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:
-
toggle
: false, extend
: false.
Clear the previous selection and ensure the new cell is selected.
-
toggle
: false, extend
: true.
Extend the previous selection from the anchor to the specified cell,
clearing all other selections.
-
toggle
: true, extend
: false.
If the specified cell is selected, deselect it. If it is not selected, select it.
-
toggle
: true, extend
: true.
Apply the selection state of the anchor to all cells between it and the
specified cell.
Params: - rowIndex – affects the selection at
row
- columnIndex – affects the selection at
column
- toggle – see description above
- extend – if true, extend the current selection
Since: 1.3
/**
* Updates the selection models of the table, depending on the state of the
* two flags: <code>toggle</code> and <code>extend</code>. 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.
* <p>
* This implementation uses the following conventions:
* <ul>
* <li> <code>toggle</code>: <em>false</em>, <code>extend</code>: <em>false</em>.
* Clear the previous selection and ensure the new cell is selected.
* <li> <code>toggle</code>: <em>false</em>, <code>extend</code>: <em>true</em>.
* Extend the previous selection from the anchor to the specified cell,
* clearing all other selections.
* <li> <code>toggle</code>: <em>true</em>, <code>extend</code>: <em>false</em>.
* If the specified cell is selected, deselect it. If it is not selected, select it.
* <li> <code>toggle</code>: <em>true</em>, <code>extend</code>: <em>true</em>.
* Apply the selection state of the anchor to all cells between it and the
* specified cell.
* </ul>
* @param rowIndex affects the selection at <code>row</code>
* @param columnIndex affects the selection at <code>column</code>
* @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.
See Also: Returns: the Color
object for the foreground property
/**
* Returns the foreground color for selected cells.
*
* @return the <code>Color</code> 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.
Params: - selectionForeground – the
Color
to use in the foreground
for selected list items
See Also:
/**
* Sets the foreground color for selected cells. Cell renderers
* can use this color to render text and graphics for selected
* cells.
* <p>
* The default value of this property is defined by the look
* and feel implementation.
* <p>
* This is a <a href="https://docs.oracle.com/javase/tutorial/javabeans/writing/properties.html">JavaBeans</a> bound property.
*
* @param selectionForeground the <code>Color</code> to use in the foreground
* for selected list items
* @see #getSelectionForeground
* @see #setSelectionBackground
* @see #setForeground
* @see #setBackground
* @see #setFont
*/
@BeanProperty(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.
See Also: Returns: the Color
used for the background of selected list items
/**
* Returns the background color for selected cells.
*
* @return the <code>Color</code> 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.
Params: - selectionBackground – the
Color
to use for the background
of selected cells
See Also:
/**
* Sets the background color for selected cells. Cell renderers
* can use this color to the fill selected cells.
* <p>
* The default value of this property is defined by the look
* and feel implementation.
* <p>
* This is a <a href="https://docs.oracle.com/javase/tutorial/javabeans/writing/properties.html">JavaBeans</a> bound property.
*
* @param selectionBackground the <code>Color</code> to use for the background
* of selected cells
* @see #getSelectionBackground
* @see #setSelectionForeground
* @see #setForeground
* @see #setBackground
* @see #setFont
*/
@BeanProperty(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
.
Params: - identifier – the identifier object
Throws: - IllegalArgumentException – if
identifier
is null
or no TableColumn
has this identifier
Returns: the TableColumn
object that matches the identifier
/**
* Returns the <code>TableColumn</code> object for the column in the table
* whose identifier is equal to <code>identifier</code>, when compared using
* <code>equals</code>.
*
* @return the <code>TableColumn</code> object that matches the identifier
* @exception IllegalArgumentException if <code>identifier</code> is <code>null</code> or no <code>TableColumn</code> 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
.
Params: - viewColumnIndex – the index of the column in the view
See Also: Returns: the index of the corresponding column in the model
/**
* Maps the index of the column in the view at
* <code>viewColumnIndex</code> to the index of the column
* in the table model. Returns the index of the corresponding
* column in the model. If <code>viewColumnIndex</code>
* is less than zero, returns <code>viewColumnIndex</code>.
*
* @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
.
Params: - modelColumnIndex – the index of the column in the model
See Also: Returns: the index of the corresponding column in the view
/**
* Maps the index of the column in the table model at
* <code>modelColumnIndex</code> 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 <code>modelColumnIndex</code> is less than zero,
* returns <code>modelColumnIndex</code>.
*
* @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.
Params: - modelRowIndex – the index of the row in terms of the model
Throws: - IndexOutOfBoundsException – if sorting is enabled and passed an
index outside the number of rows of the
TableModel
See Also: Returns: the index of the corresponding row in the view, or -1 if
the row isn't visible Since: 1.6
/**
* Maps the index of the row in terms of the
* <code>TableModel</code> 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 <code>TableModel</code>
* @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.
Params: - viewRowIndex – the index of the row in the view
Throws: - IndexOutOfBoundsException – if sorting is enabled and passed an
index outside the range of the
JTable
as
determined by the method getRowCount
See Also: Returns: the index of the corresponding row in the model Since: 1.6
/**
* Maps the index of the row in terms of the view to the
* underlying <code>TableModel</code>. 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 <code>JTable</code> as
* determined by the method <code>getRowCount</code>
* @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
.
See Also: Returns: the number of rows shown in the JTable
/**
* Returns the number of rows that can be shown in the
* <code>JTable</code>, given unlimited space. If a
* <code>RowSorter</code> with a filter has been specified, the
* number of rows returned may differ from that of the underlying
* <code>TableModel</code>.
*
* @return the number of rows shown in the <code>JTable</code>
* @see #getColumnCount
*/
@BeanProperty(bound = false)
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.
See Also: Returns: the number of columns in the table
/**
* 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
*/
@BeanProperty(bound = false)
public int getColumnCount() {
return getColumnModel().getColumnCount();
}
Returns the name of the column appearing in the view at
column position column
.
Params: - column – the column in the view being queried
Returns: the name of the column at position column
in the view where the first column is column 0
/**
* Returns the name of the column appearing in the view at
* column position <code>column</code>.
*
* @param column the column in the view being queried
* @return the name of the column at position <code>column</code>
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
.
Params: - column – the column in the view being queried
Returns: the type of the column at position column
in the view where the first column is column 0
/**
* Returns the type of the column appearing in the view at
* column position <code>column</code>.
*
* @param column the column in the view being queried
* @return the type of the column at position <code>column</code>
* 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.
Params: - row – the row whose value is to be queried
- column – the column whose value is to be queried
Returns: the Object at the specified cell
/**
* Returns the cell value at <code>row</code> and <code>column</code>.
* <p>
* <b>Note</b>: The column is specified in the table view's display
* order, and not in the <code>TableModel</code>'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.
Params: - aValue – the new value
- row – the row of the cell to be changed
- column – the column of the cell to be changed
See Also:
/**
* Sets the value for the cell in the table model at <code>row</code>
* and <code>column</code>.
* <p>
* <b>Note</b>: The column is specified in the table view's display
* order, and not in the <code>TableModel</code>'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.
*
* <code>aValue</code> 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.
Params: - row – the row whose value is to be queried
- column – the column whose value is to be queried
See Also: Returns: true if the cell is editable
/**
* Returns true if the cell at <code>row</code> and <code>column</code>
* is editable. Otherwise, invoking <code>setValueAt</code> on the cell
* will have no effect.
* <p>
* <b>Note</b>: The column is specified in the table view's display
* order, and not in the <code>TableModel</code>'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
/**
* Appends <code>aColumn</code> to the end of the array of columns held by
* this <code>JTable</code>'s column model.
* If the column name of <code>aColumn</code> is <code>null</code>,
* sets the column name of <code>aColumn</code> to the name
* returned by <code>getModel().getColumnName()</code>.
* <p>
* To add a column to this <code>JTable</code> to display the
* <code>modelColumn</code>'th column of data in the model with a
* given <code>width</code>, <code>cellRenderer</code>,
* and <code>cellEditor</code> you can use:
* <pre>
*
* addColumn(new TableColumn(modelColumn, width, cellRenderer, cellEditor));
*
* </pre>
* [Any of the <code>TableColumn</code> constructors can be used
* instead of this one.]
* The model column number is stored inside the <code>TableColumn</code>
* 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 <code>TableColumn</code> 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
/**
* Removes <code>aColumn</code> from this <code>JTable</code>'s
* array of columns. Note: this method does not remove the column
* of data from the model; it just removes the <code>TableColumn</code>
* that was responsible for displaying it.
*
* @param aColumn the <code>TableColumn</code> 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.
Params: - column – the index of column to be moved
- targetColumn – the new index of the column
/**
* Moves the column <code>column</code> to the position currently
* occupied by the column <code>targetColumn</code> in the view.
* The old column at <code>targetColumn</code> 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].
Params: - point – the location of interest
See Also: Returns: the index of the column that point
lies in,
or -1 if the result is not in the range
[0, getColumnCount()
-1]
/**
* Returns the index of the column that <code>point</code> lies in,
* or -1 if the result is not in the range
* [0, <code>getColumnCount()</code>-1].
*
* @param point the location of interest
* @return the index of the column that <code>point</code> lies in,
* or -1 if the result is not in the range
* [0, <code>getColumnCount()</code>-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].
Params: - point – the location of interest
See Also: Returns: the index of the row that point
lies in,
or -1 if the result is not in the range
[0, getRowCount()
-1]
/**
* Returns the index of the row that <code>point</code> lies in,
* or -1 if the result is not in the range
* [0, <code>getRowCount()</code>-1].
*
* @param point the location of interest
* @return the index of the row that <code>point</code> lies in,
* or -1 if the result is not in the range
* [0, <code>getRowCount()</code>-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.
Params: - row – the row index where the desired cell
is located
- 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
convertColumnIndexToView(int)
method may be used to convert a data model column index to a display column index - 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
See Also: Returns: the rectangle containing the cell at location
row
,column
/**
* Returns a rectangle for the cell that lies at the intersection of
* <code>row</code> and <code>column</code>.
* If <code>includeSpacing</code> 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.
* <p>
* If the column index is valid but the row index is less
* than zero the method returns a rectangle with the
* <code>y</code> and <code>height</code> values set appropriately
* and the <code>x</code> and <code>width</code> 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.
* <p>
* 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 <code>includeSpacing</code> 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
* <code>row</code>,<code>column</code>
* @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:
- AUTO_RESIZE_OFF: Don't automatically adjust the column's
widths at all. Use a horizontal scrollbar to accommodate the
columns when their sum exceeds the width of the
Viewport
. If the JTable
is not
enclosed in a JScrollPane
this may
leave parts of the table invisible.
- AUTO_RESIZE_NEXT_COLUMN: Use just the column after the
resizing column. This results in the "boundary" or divider
between adjacent cells being independently adjustable.
- AUTO_RESIZE_SUBSEQUENT_COLUMNS: Use all columns after the
one being adjusted to absorb the changes. This is the
default behavior.
- AUTO_RESIZE_LAST_COLUMN: Automatically adjust the
size of the last column only. If the bounds of the last column
prevent the desired size from being allocated, set the
width of the last column to the appropriate limit and make
no further adjustments.
- AUTO_RESIZE_ALL_COLUMNS: Spread the delta amongst all the columns
in the
JTable
, including the one that is being
adjusted.
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).
/**
* 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 <code>JTable</code>'s
* columns is equal to the width of the table.
* <p>
* Before the layout begins the method gets the
* <code>resizingColumn</code> of the <code>tableHeader</code>.
* When the method is called as a result of the resizing of an enclosing window,
* the <code>resizingColumn</code> is <code>null</code>. This means that resizing
* has taken place "outside" the <code>JTable</code> and the change -
* or "delta" - should be distributed to all of the columns regardless
* of this <code>JTable</code>'s automatic resize mode.
* <p>
* If the <code>resizingColumn</code> is not <code>null</code>, 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.
* <p>
* The modes are:
* <ul>
* <li> AUTO_RESIZE_OFF: Don't automatically adjust the column's
* widths at all. Use a horizontal scrollbar to accommodate the
* columns when their sum exceeds the width of the
* <code>Viewport</code>. If the <code>JTable</code> is not
* enclosed in a <code>JScrollPane</code> this may
* leave parts of the table invisible.
* <li> AUTO_RESIZE_NEXT_COLUMN: Use just the column after the
* resizing column. This results in the "boundary" or divider
* between adjacent cells being independently adjustable.
* <li> AUTO_RESIZE_SUBSEQUENT_COLUMNS: Use all columns after the
* one being adjusted to absorb the changes. This is the
* default behavior.
* <li> AUTO_RESIZE_LAST_COLUMN: Automatically adjust the
* size of the last column only. If the bounds of the last column
* prevent the desired size from being allocated, set the
* width of the last column to the appropriate limit and make
* no further adjustments.
* <li> AUTO_RESIZE_ALL_COLUMNS: Spread the delta amongst all the columns
* in the <code>JTable</code>, including the one that is being
* adjusted.
* </ul>
* <p>
* <b>Note:</b> When a <code>JTable</code> 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 <code>JTable</code> 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 <code>JTable</code>'s bounds.
* These respectively, result in the clipping of some columns
* or an area being painted in the <code>JTable</code>'s
* background color during painting.
* <p>
* The mechanism for distributing the delta amongst the available
* columns is provided in a private method in the <code>JTable</code>
* class:
* <pre>
* adjustSizes(long targetSize, final Resizable3 r, boolean inverse)
* </pre>
* an explanation of which is provided in the following section.
* <code>Resizable3</code> 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.
*
* <H4> Distributing the delta </H4>
*
* <H5> Overview </H5>
* <P>
* 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).
*
* <H5>Definition</H5>
* <P>
* Call the individual constraints min[i], max[i], and pref[i].
* <p>
* Call their respective sums: MIN, MAX, and PREF.
* <p>
* Each new size will be calculated using:
*
* <pre>
* size[i] = pref[i] + delta[i]
* </pre>
* where each individual delta[i] is calculated according to:
* <p>
* If (DELTA < 0) we are in shrink mode where:
*
* <PRE>
* DELTA
* delta[i] = ------------ * (pref[i] - min[i])
* (PREF - MIN)
* </PRE>
* If (DELTA > 0) we are in expand mode where:
*
* <PRE>
* DELTA
* delta[i] = ------------ * (max[i] - pref[i])
* (MAX - PREF)
* </PRE>
* <P>
* 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.
*
* <H5>Details</H5>
* <P>
* 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
* <code>targetSize</code>, and does so by spreading the rounding
* errors evenly over the given elements.
*
* <H5>When the MAX and MIN bounds are hit</H5>
* <P>
* When <code>targetSize</code> 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.
Params: - lastColumnOnly – determines whether to resize last column only
See Also: Deprecated: As of Swing version 1.0.3,
replaced by doLayout()
.
/**
* Sizes the table columns to fit the available space.
*
* @param lastColumnOnly determines whether to resize last column only
* @deprecated As of Swing version 1.0.3,
* replaced by <code>doLayout()</code>.
* @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.
Params: - resizingColumn – the column whose resizing made this adjustment
necessary or -1 if there is no such column
See Also:
/**
* Obsolete as of Java 2 platform v1.4. Please use the
* <code>doLayout()</code> 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 Also: - getToolTipText.getToolTipText
/**
* Overrides <code>JComponent</code>'s <code>getToolTipText</code>
* method in order to allow the renderer's tips to be used
* if it has text set.
* <p>
* <b>Note:</b> For <code>JTable</code> to properly display
* tooltips of its renderers
* <code>JTable</code> must be a registered component with the
* <code>ToolTipManager</code>.
* This is done automatically in <code>initializeLocalVars</code>,
* but if at a later point <code>JTable</code> is told
* <code>setToolTipText(null)</code> 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);
@SuppressWarnings("deprecation")
final int modifiers = event.getModifiers();
MouseEvent newEvent = new MouseEvent(component, event.getID(),
event.getWhen(), modifiers,
p.x, p.y,
event.getXOnScreen(),
event.getYOnScreen(),
event.getClickCount(),
event.isPopupTrigger(),
MouseEvent.NOBUTTON);
MouseEventAccessor meAccessor = AWTAccessor.getMouseEventAccessor();
meAccessor.setCausedByTouchEvent(newEvent,
meAccessor.isCausedByTouchEvent(event));
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.
Params: - surrendersFocusOnKeystroke – true if the editor should get the focus
when keystrokes cause the editor to be
activated
See Also: Since: 1.4
/**
* 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
See Also: Returns: true if the editor should get the focus
when keystrokes cause the editor to be
activated Since: 1.4
/**
* 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)
.
Params: - row – the row to be edited
- column – the column to be edited
Returns: false if for any reason the cell cannot be edited,
or if the indices are invalid
/**
* Programmatically starts editing the cell at <code>row</code> and
* <code>column</code>, if those indices are in the valid range, and
* the cell at those indices is editable.
* Note that this is a convenience method for
* <code>editCellAt(int, int, null)</code>.
*
* @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.
Params: - row – the row to be edited
- column – the column to be edited
- e – event to pass into
shouldSelectCell
;
note that as of Java 2 platform v1.2, the call to
shouldSelectCell
is no longer made
Returns: false if for any reason the cell cannot be edited,
or if the indices are invalid
/**
* Programmatically starts editing the cell at <code>row</code> and
* <code>column</code>, if those indices are in the valid range, and
* the cell at those indices is editable.
* To prevent the <code>JTable</code> from
* editing a particular table, column or cell value, return false from
* the <code>isCellEditable</code> method in the <code>TableModel</code>
* interface.
*
* @param row the row to be edited
* @param column the column to be edited
* @param e event to pass into <code>shouldSelectCell</code>;
* note that as of Java 2 platform v1.2, the call to
* <code>shouldSelectCell</code> 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.
See Also: Returns: true if the table is editing a cell
/**
* Returns true if a cell is being edited.
*
* @return true if the table is editing a cell
* @see #editingColumn
* @see #editingRow
*/
@BeanProperty(bound = false)
public boolean isEditing() {
return cellEditor != null;
}
Returns the component that is handling the editing session.
If nothing is being edited, returns null.
Returns: Component handling editing session
/**
* Returns the component that is handling the editing session.
* If nothing is being edited, returns null.
*
* @return Component handling editing session
*/
@BeanProperty(bound = false)
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.
See Also: Returns: the index of the column that contains the cell currently
being edited; returns -1 if nothing being edited
/**
* 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.
See Also: Returns: the index of the row that contains the cell currently
being edited; returns -1 if nothing being edited
/**
* 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.
Returns: the TableUI
object that renders this component
/**
* Returns the L&F object that renders this component.
*
* @return the <code>TableUI</code> object that renders this component
*/
public TableUI getUI() {
return (TableUI)ui;
}
Sets the L&F object that renders this component and repaints.
Params: - ui – the TableUI L&F object
See Also:
/**
* Sets the L&F object that renders this component and repaints.
*
* @param ui the TableUI L&F object
* @see UIDefaults#getUI
*/
@BeanProperty(hidden = true, 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 Also: - updateUI.updateUI
/**
* Notification from the <code>UIManager</code> that the L&F has changed.
* Replaces the current UI object with the latest version from the
* <code>UIManager</code>.
*
* @see JComponent#updateUI
*/
public void updateUI() {
if (updateInProgress) {
return;
}
updateInProgress = true;
try {
// 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));
} finally {
updateInProgress = false;
}
}
Returns the suffix used to construct the name of the L&F class used to
render this component.
See Also: Returns: the string "TableUI"
/**
* 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
*/
@BeanProperty(bound = false)
public String getUIClassID() {
return uiClassID;
}
//
// Managing models
//
Sets the data model for this table to dataModel
and registers with it for listener notifications from the new data model. Params: - dataModel – the new data source for this table
Throws: - IllegalArgumentException – if
dataModel
is null
See Also:
/**
* Sets the data model for this table to {@code dataModel} and registers
* with it for listener notifications from the new data model.
*
* @param dataModel the new data source for this table
* @throws IllegalArgumentException if {@code dataModel} is {@code null}
* @see #getModel
*/
@BeanProperty(description
= "The model that is the source of the data for this view.")
public void setModel(final 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<TableModel>(dataModel));
}
}
}
Returns the TableModel
that provides the data displayed by this JTable
. See Also: Returns: the TableModel
that provides the data displayed by this JTable
/**
* Returns the {@code TableModel} that provides the data displayed by this
* {@code JTable}.
*
* @return the {@code TableModel} that provides the data displayed by this
* {@code JTable}
* @see #setModel
*/
public TableModel getModel() {
return dataModel;
}
Sets the column model for this table to columnModel
and registers for listener notifications from the new column model. Also sets the column model of the JTableHeader
to columnModel
. Params: - columnModel – the new data source for this table
Throws: - IllegalArgumentException – if
columnModel
is null
See Also:
/**
* Sets the column model for this table to {@code columnModel} and registers
* for listener notifications from the new column model. Also sets the
* column model of the {@code JTableHeader} to {@code columnModel}.
*
* @param columnModel the new data source for this table
* @throws IllegalArgumentException if {@code columnModel} is {@code null}
* @see #getColumnModel
*/
@BeanProperty(description
= "The object governing the way columns appear in the view.")
public void setColumnModel(final 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. See Also: Returns: the object that provides the column state of the table
/**
* Returns the {@code 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 selectionModel
and registers for listener notifications from the new selection model. Params: - selectionModel – the new selection model
Throws: - IllegalArgumentException – if
selectionModel
is null
See Also:
/**
* Sets the row selection model for this table to {@code selectionModel}
* and registers for listener notifications from the new selection model.
*
* @param selectionModel the new selection model
* @throws IllegalArgumentException if {@code selectionModel} is
* {@code null}
* @see #getSelectionModel
*/
@BeanProperty(description
= "The selection model for rows.")
public void setSelectionModel(final ListSelectionModel selectionModel) {
if (selectionModel == null) {
throw new IllegalArgumentException("Cannot set a null SelectionModel");
}
ListSelectionModel oldModel = this.selectionModel;
if (selectionModel != oldModel) {
if (oldModel != null) {
oldModel.removeListSelectionListener(this);
}
this.selectionModel = selectionModel;
selectionModel.addListSelectionListener(this);
firePropertyChange("selectionModel", oldModel, selectionModel);
repaint();
}
}
Returns the ListSelectionModel
that is used to maintain row selection state. See Also: Returns: the object that provides row selection state, null
if row selection is not allowed
/**
* Returns the {@code ListSelectionModel} that is used to maintain row
* selection state.
*
* @return the object that provides row selection state, {@code 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.
Params: - e – the
RowSorterEvent
describing the change
Throws: - NullPointerException – if
e
is null
Since: 1.6
/**
* <code>RowSorterListener</code> notification that the
* <code>RowSorter</code> has changed in some way.
*
* @param e the <code>RowSorterEvent</code> describing the change
* @throws NullPointerException if <code>e</code> is <code>null</code>
* @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.
/**
* 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<? extends TableModel> 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<? extends TableModel> sorter) {
this.sorter = sorter;
sorter.addRowSorterListener(JTable.this);
}
Disposes any resources used by this SortManager.
/**
* 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.
/**
* 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.
/**
* 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.
/**
* 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.
/**
* 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.
/**
* 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.
/**
* 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.
/**
* 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.
/**
* 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.
/**
* 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.
/**
* Invoked when <code>sorterChanged</code> is invoked, or
* when <code>tableChanged</code> 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.
/**
* 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.
/**
* 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.
Params: - editingRow – new index of the editingRow, in terms of the view
/**
* 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.
/**
* 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.
Params: - change – describes the TableModelEvent that initiated the change;
will be null if called as the result of a sort
/**
* 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.
/**
* 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.
/**
* Invoked when this table's <code>TableModel</code> generates
* a <code>TableModelEvent</code>.
* The <code>TableModelEvent</code> should be constructed in the
* coordinate system of the model; the appropriate mapping to the
* view coordinate system is performed by this <code>JTable</code>
* when it receives the event.
* <p>
* Application code will not use these methods explicitly, they
* are used internally by <code>JTable</code>.
* <p>
* 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.
* <p>
* 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.
* <p>
* 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 Also: - TableColumnModelListener
/**
* Invoked when a column is added to the table column model.
* <p>
* 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 Also: - TableColumnModelListener
/**
* Invoked when a column is removed from the table column model.
* <p>
* 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.
Params: - e – the event received
See Also:
/**
* Invoked when a column is repositioned. If a cell is being
* edited, then editing is stopped and the cell is redrawn.
* <p>
* 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.
Params: - e – the event received
See Also:
/**
* 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.
* <p>
* 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.
Params: - e – the event received
See Also:
/**
* Invoked when the selection model of the <code>TableColumnModel</code>
* is changed.
* <p>
* 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.
Params: - e – the event received
See Also:
/**
* Invoked when the row selection changes -- repaints to show the new
* selection.
* <p>
* 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.
Params: - e – the event received
See Also:
/**
* Invoked when editing is finished. The changes are saved and the
* editor is discarded.
* <p>
* 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.
Params: - e – the event received
See Also:
/**
* Invoked when editing is canceled. The editor object is discarded
* and the cell is rendered once again.
* <p>
* 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.
Params: - size – a
Dimension
object specifying the preferredSize
of a
JViewport
whose view is this table
See Also:
/**
* Sets the preferred size of the viewport for this table.
*
* @param size a <code>Dimension</code> object specifying the <code>preferredSize</code> of a
* <code>JViewport</code> whose view is this table
* @see Scrollable#getPreferredScrollableViewportSize
*/
@BeanProperty(bound = false, description
= "The preferred size of the viewport.")
public void setPreferredScrollableViewportSize(Dimension size) {
preferredViewportSize = size;
}
Returns the preferred size of the viewport for this table.
See Also: Returns: a Dimension
object containing the preferredSize
of the JViewport
which displays this table
/**
* Returns the preferred size of the viewport for this table.
*
* @return a <code>Dimension</code> object containing the <code>preferredSize</code> of the <code>JViewport</code>
* 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.
Params: - visibleRect – the view area visible within the viewport
- orientation – either
SwingConstants.VERTICAL
or SwingConstants.HORIZONTAL
- direction – less than zero to scroll up/left,
greater than zero for down/right
See Also: Returns: the "unit" increment for scrolling in the specified direction
/**
* Returns the scroll increment (in pixels) that completely exposes one new
* row or column (depending on the orientation).
* <p>
* This method is called each time the user requests a unit scroll.
*
* @param visibleRect the view area visible within the viewport
* @param orientation either <code>SwingConstants.VERTICAL</code>
* or <code>SwingConstants.HORIZONTAL</code>
* @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.
See Also: Returns: visibleRect.height
or
visibleRect.width
per the orientation
/**
* Returns <code>visibleRect.height</code> or
* <code>visibleRect.width</code>,
* 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 <code>visibleRect.height</code> or
* <code>visibleRect.width</code>
* 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.
/**
* 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.
/**
* 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.
See Also: Returns: false if autoResizeMode
is set
to AUTO_RESIZE_OFF
, otherwise returns true
/**
* Returns false if <code>autoResizeMode</code> is set to
* <code>AUTO_RESIZE_OFF</code>, which indicates that the
* width of the viewport does not determine the width
* of the table. Otherwise returns true.
*
* @return false if <code>autoResizeMode</code> is set
* to <code>AUTO_RESIZE_OFF</code>, otherwise returns true
* @see Scrollable#getScrollableTracksViewportWidth
*/
@BeanProperty(bound = false)
public boolean getScrollableTracksViewportWidth() {
return !(autoResizeMode == AUTO_RESIZE_OFF);
}
Returns false
to indicate that the height of the viewport does not determine the height of the table, unless getFillsViewportHeight
is true
and the preferred height of the table is smaller than the viewport's height. See Also: Returns: false
unless getFillsViewportHeight
is true
and the table needs to be stretched to fill the viewport
/**
* 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
*/
@BeanProperty(bound = false)
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 false
. Params: - fillsViewportHeight – whether or not this table is always
made large enough to fill the height of an enclosing
viewport
See Also: Since: 1.6
/**
* 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
*/
@BeanProperty(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.
See Also: Returns: whether or not this table is always made large enough
to fill the height of an enclosing viewport Since: 1.6
/**
* 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 || code == KeyEvent.VK_META ||
code == KeyEvent.VK_ALT_GRAPH) {
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.
Object prop = getClientProperty("JTable.forceAutoStartsEdit");
if (getSurrendersFocusOnKeystroke()
|| Boolean.TRUE.equals(prop)) {
editorComponent.requestFocus();
}
}
}
return retValue;
}
Creates default cell renderers for objects, numbers, doubles, dates,
booleans, and icons.
See Also: - DefaultTableCellRenderer
/**
* 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
defaultRenderersByColumnClass.put(Object.class, (UIDefaults.LazyValue)
t -> new DefaultTableCellRenderer.UIResource());
// Numbers
defaultRenderersByColumnClass.put(Number.class, (UIDefaults.LazyValue)
t -> new NumberRenderer());
// Doubles and Floats
defaultRenderersByColumnClass.put(Float.class, (UIDefaults.LazyValue)
t -> new DoubleRenderer());
defaultRenderersByColumnClass.put(Double.class, (UIDefaults.LazyValue)
t -> new DoubleRenderer());
// Dates
defaultRenderersByColumnClass.put(Date.class, (UIDefaults.LazyValue)
t -> new DateRenderer());
// Icons and ImageIcons
defaultRenderersByColumnClass.put(Icon.class, (UIDefaults.LazyValue)
t -> new IconRenderer());
defaultRenderersByColumnClass.put(ImageIcon.class, (UIDefaults.LazyValue)
t -> new IconRenderer());
// Booleans
defaultRenderersByColumnClass.put(Boolean.class, (UIDefaults.LazyValue)
t -> new BooleanRenderer());
}
Default Renderers
/**
* 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;
}
}
Creates default cell editors for objects, numbers, and boolean values.
See Also: - DefaultCellEditor
/**
* Creates default cell editors for objects, numbers, and boolean values.
* @see DefaultCellEditor
*/
protected void createDefaultEditors() {
defaultEditorsByColumnClass = new UIDefaults(3, 0.75f);
// Objects
defaultEditorsByColumnClass.put(Object.class, (UIDefaults.LazyValue)
t -> new GenericEditor());
// Numbers
defaultEditorsByColumnClass.put(Number.class, (UIDefaults.LazyValue)
t -> new NumberEditor());
// Booleans
defaultEditorsByColumnClass.put(Boolean.class, (UIDefaults.LazyValue)
t -> new BooleanEditor());
}
Default Editors
/**
* 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.
/**
* 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.
See Also: Returns: the default table model object
/**
* Returns the default table model object, which is
* a <code>DefaultTableModel</code>. 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.
See Also: Returns: the default column model object
/**
* Returns the default column model object, which is
* a <code>DefaultTableColumnModel</code>. 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.
See Also: Returns: the default selection model object
/**
* Returns the default selection model object, which is
* a <code>DefaultListSelectionModel</code>. 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.
See Also: Returns: the default table header object
/**
* Returns the default table header object, which is
* a <code>JTableHeader</code>. 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
.
/**
* Equivalent to <code>revalidate</code> followed by <code>repaint</code>.
*/
protected void resizeAndRepaint() {
revalidate();
repaint();
}
Returns the active cell editor, which is null
if the table is not currently editing. See Also: Returns: the TableCellEditor
that does the editing, or null
if the table is not currently editing.
/**
* 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.
Params: - anEditor – the active cell editor
See Also:
/**
* Sets the active cell editor.
*
* @param anEditor the active cell editor
* @see #cellEditor
*/
@BeanProperty(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.
Params: - aColumn – the column of the cell to be edited
See Also:
/**
* Sets the <code>editingColumn</code> variable.
* @param aColumn the column of the cell to be edited
*
* @see #editingColumn
*/
public void setEditingColumn(int aColumn) {
editingColumn = aColumn;
}
Sets the editingRow
variable.
Params: - aRow – the row of the cell to be edited
See Also:
/**
* Sets the <code>editingRow</code> 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.
Params: - row – the row of the cell to render, where 0 is the first row
- column – the column of the cell to render,
where 0 is the first column
See Also: Returns: the assigned renderer; if null
returns the default renderer
for this type of object
/**
* Returns an appropriate renderer for the cell specified by this row and
* column. If the <code>TableColumn</code> for this column has a non-null
* renderer, returns that. If not, finds the class of the data in
* this column (using <code>getColumnClass</code>)
* and returns the default renderer for this type of data.
* <p>
* <b>Note:</b>
* 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 <code>null</code>
* 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 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.
Params: - renderer – the
TableCellRenderer
to prepare - row – the row of the cell to render, where 0 is the first row
- column – the column of the cell to render,
where 0 is the first column
Returns: the Component
under the event location
/**
* Prepares the renderer by querying the data model for the
* value and selection state
* of the cell at <code>row</code>, <code>column</code>.
* Returns the component (may be a <code>Component</code>
* or a <code>JComponent</code>) under the event location.
* <p>
* 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.
* <p>
* <b>Note:</b>
* 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 <code>TableCellRenderer</code> 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 <code>Component</code> 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.
Params: - row – the row of the cell to edit, where 0 is the first row
- column – the column of the cell to edit,
where 0 is the first column
See Also: Returns: the editor for this cell;
if null
return the default editor for
this type of cell
/**
* Returns an appropriate editor for the cell specified by
* <code>row</code> and <code>column</code>. If the
* <code>TableColumn</code> for this column has a non-null editor,
* returns that. If not, finds the class of the data in this
* column (using <code>getColumnClass</code>)
* and returns the default editor for this type of data.
* <p>
* <b>Note:</b>
* 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 <code>null</code> 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.
Params: - editor – the
TableCellEditor
to set up - row – the row of the cell to edit,
where 0 is the first row
- column – the column of the cell to edit,
where 0 is the first column
Returns: the Component
being edited
/**
* Prepares the editor by querying the data model for the value and
* selection state of the cell at <code>row</code>, <code>column</code>.
* <p>
* <b>Note:</b>
* 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 <code>TableCellEditor</code> 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 <code>Component</code> being edited
*/
@SuppressWarnings("deprecation")
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.
/**
* 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.
/**
* 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
{
ObjectInputStream.GetField f = s.readFields();
TableModel newDataModel = (TableModel) f.get("dataModel", null);
if (newDataModel == null) {
throw new InvalidObjectException("Null dataModel");
}
dataModel = newDataModel;
TableColumnModel newColumnModel = (TableColumnModel) f.get("columnModel", null);
if (newColumnModel == null) {
throw new InvalidObjectException("Null columnModel");
}
columnModel = newColumnModel;
ListSelectionModel newSelectionModel = (ListSelectionModel) f.get("selectionModel", null);
if (newSelectionModel == null) {
throw new InvalidObjectException("Null selectionModel");
}
selectionModel = newSelectionModel;
tableHeader = (JTableHeader) f.get("tableHeader", null);
int newRowHeight = f.get("rowHeight", 0);
if (newRowHeight <= 0) {
throw new InvalidObjectException("Row height less than 1");
}
rowHeight = newRowHeight;
rowMargin = f.get("rowMargin", 0);
Color newGridColor = (Color) f.get("gridColor", null);
if (newGridColor == null) {
throw new InvalidObjectException("Null gridColor");
}
gridColor = newGridColor;
showHorizontalLines = f.get("showHorizontalLines", false);
showVerticalLines = f.get("showVerticalLines", false);
int newAutoResizeMode = f.get("autoResizeMode", 0);
if (!isValidAutoResizeMode(newAutoResizeMode)) {
throw new InvalidObjectException("autoResizeMode is not valid");
}
autoResizeMode = newAutoResizeMode;
autoCreateColumnsFromModel = f.get("autoCreateColumnsFromModel", false);
preferredViewportSize = (Dimension) f.get("preferredViewportSize", null);
rowSelectionAllowed = f.get("rowSelectionAllowed", false);
cellSelectionEnabled = f.get("cellSelectionEnabled", false);
selectionForeground = (Color) f.get("selectionForeground", null);
selectionBackground = (Color) f.get("selectionBackground", null);
rowModel = (SizeSequence) f.get("rowModel", null);
boolean newDragEnabled = f.get("dragEnabled", false);
checkDragEnabled(newDragEnabled);
dragEnabled = newDragEnabled;
surrendersFocusOnKeystroke = f.get("surrendersFocusOnKeystroke", false);
editorRemover = (PropertyChangeListener) f.get("editorRemover", null);
columnSelectionAdjusting = f.get("columnSelectionAdjusting", false);
rowSelectionAdjusting = f.get("rowSelectionAdjusting", false);
printError = (Throwable) f.get("printError", null);
isRowHeightSet = f.get("isRowHeightSet", false);
updateSelectionOnSort = f.get("updateSelectionOnSort", false);
ignoreSortChange = f.get("ignoreSortChange", false);
sorterChanged = f.get("sorterChanged", false);
autoCreateRowSorter = f.get("autoCreateRowSorter", false);
fillsViewportHeight = f.get("fillsViewportHeight", false);
DropMode newDropMode = (DropMode) f.get("dropMode",
DropMode.USE_SELECTION);
checkDropMode(newDropMode);
dropMode = newDropMode;
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
.
Returns: a string representation of this table
/**
* 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 <code>null</code>.
*
* @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;
}
@SuppressWarnings("deprecation")
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.
Throws: - SecurityException – if this thread is not allowed to
initiate a print job request
- PrinterException – if an error in the print system causes the job
to be aborted
See Also: Returns: true, unless printing is cancelled by the user Since: 1.5
/**
* A convenience method that displays a printing dialog, and then prints
* this <code>JTable</code> in mode <code>PrintMode.FIT_WIDTH</code>,
* with no header or footer text. A modal progress dialog, with an abort
* option, will be shown for the duration of printing.
* <p>
* 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.
Params: - printMode – the printing mode that the printable should use
Throws: - SecurityException – if this thread is not allowed to
initiate a print job request
- PrinterException – if an error in the print system causes the job
to be aborted
See Also: Returns: true, unless printing is cancelled by the user Since: 1.5
/**
* A convenience method that displays a printing dialog, and then prints
* this <code>JTable</code> 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.
* <p>
* 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.
Params: - printMode – the printing mode that the printable should use
- headerFormat – a
MessageFormat
specifying the text
to be used in printing a header,
or null for none - footerFormat – a
MessageFormat
specifying the text
to be used in printing a footer,
or null for none
Throws: - SecurityException – if this thread is not allowed to
initiate a print job request
- PrinterException – if an error in the print system causes the job
to be aborted
See Also: Returns: true, unless printing is cancelled by the user Since: 1.5
/**
* A convenience method that displays a printing dialog, and then prints
* this <code>JTable</code> 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.
* <p>
* 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 <code>MessageFormat</code> specifying the text
* to be used in printing a header,
* or null for none
* @param footerFormat a <code>MessageFormat</code> 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 print
method, with the default printer specified as the print service. Params: - printMode – the printing mode that the printable should use
- headerFormat – a
MessageFormat
specifying the text
to be used in printing a header,
or null
for none - footerFormat – a
MessageFormat
specifying the text
to be used in printing a footer,
or null
for none - showPrintDialog – whether or not to display a print dialog
- attr – a
PrintRequestAttributeSet
specifying any printing attributes,
or null
for none - interactive – whether or not to print in an interactive mode
Throws: - HeadlessException – if the method is asked to show a printing
dialog or run interactively, and
GraphicsEnvironment.isHeadless
returns true
- SecurityException – if this thread is not allowed to
initiate a print job request
- PrinterException – if an error in the print system causes the job
to be aborted
See Also: Returns: true, unless printing is cancelled by the user Since: 1.5
/**
* 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 <code>MessageFormat</code> specifying the text
* to be used in printing a header,
* or <code>null</code> for none
* @param footerFormat a <code>MessageFormat</code> specifying the text
* to be used in printing a footer,
* or <code>null</code> for none
* @param showPrintDialog whether or not to display a print dialog
* @param attr a <code>PrintRequestAttributeSet</code>
* specifying any printing attributes,
* or <code>null</code> 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
* <code>GraphicsEnvironment.isHeadless</code>
* returns <code>true</code>
* @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 JComponent.isPaintingForPrint()
.
See getPrintable
for more description on how the table is printed.
Params: - printMode – the printing mode that the printable should use
- headerFormat – a
MessageFormat
specifying the text
to be used in printing a header,
or null
for none - footerFormat – a
MessageFormat
specifying the text
to be used in printing a footer,
or null
for none - showPrintDialog – whether or not to display a print dialog
- attr – a
PrintRequestAttributeSet
specifying any printing attributes,
or null
for none - interactive – whether or not to print in an interactive mode
- service – the destination
PrintService
,
or null
to use the default printer
Throws: - HeadlessException – if the method is asked to show a printing
dialog or run interactively, and
GraphicsEnvironment.isHeadless
returns true
- SecurityException – if a security manager exists and its
SecurityManager.checkPrintJobAccess
method disallows this thread from creating a print job request - PrinterException – if an error in the print system causes the job
to be aborted
See Also: Returns: true, unless printing is cancelled by the user Since: 1.6
/**
* Prints this <code>JTable</code>. Takes steps that the majority of
* developers would take in order to print a <code>JTable</code>.
* In short, it prepares the table, calls <code>getPrintable</code> to
* fetch an appropriate <code>Printable</code>, and then sends it to the
* printer.
* <p>
* A <code>boolean</code> 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
* <code>PrintService</code> 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.
* <p>
* A second <code>boolean</code> parameter allows you to specify whether
* or not to perform printing in an interactive mode. If <code>true</code>,
* 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
* <code>SwingUtilities.invokeLater</code>). 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.
* <p>
* If <code>false</code> 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 <code>false</code> is only recommended when
* printing from an application with no visible GUI.
* <p>
* Note: Attempting to show the printing dialog or run interactively, while
* in headless mode, will result in a <code>HeadlessException</code>.
* <p>
* Before fetching the printable, this method will gracefully terminate
* editing, if necessary, to prevent an editor from showing in the printed
* result. Additionally, <code>JTable</code> 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()}.
* <p>
* 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 <code>MessageFormat</code> specifying the text
* to be used in printing a header,
* or <code>null</code> for none
* @param footerFormat a <code>MessageFormat</code> specifying the text
* to be used in printing a footer,
* or <code>null</code> for none
* @param showPrintDialog whether or not to display a print dialog
* @param attr a <code>PrintRequestAttributeSet</code>
* specifying any printing attributes,
* or <code>null</code> for none
* @param interactive whether or not to print in an interactive mode
* @param service the destination <code>PrintService</code>,
* or <code>null</code> 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
* <code>GraphicsEnvironment.isHeadless</code>
* returns <code>true</code>
* @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 = () -> {
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(null, runnable, "JTablePrint", 0, false);
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:
- In any mode, when the header or footer text is too wide to fit
completely in the printable area -- print as much of the text as
possible starting from the beginning, as determined by the table's
ComponentOrientation
.
- In any mode, when a row is too tall to fit in the
printable area -- print the upper-most portion of the row
and paint no lower border on the table.
- In
PrintMode.NORMAL
when a column
is too wide to fit in the printable area -- print the center
portion of the column and leave the left and right borders
off the table.
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 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.
Params: - printMode – the printing mode that the printable should use
- headerFormat – a
MessageFormat
specifying the text to
be used in printing a header, or null for none - footerFormat – a
MessageFormat
specifying the text to
be used in printing a footer, or null for none
See Also: Returns: a Printable
for printing this JTable Since: 1.5
/**
* Return a <code>Printable</code> for use in printing this JTable.
* <p>
* This method is meant for those wishing to customize the default
* <code>Printable</code> implementation used by <code>JTable</code>'s
* <code>print</code> methods. Developers wanting simply to print the table
* should use one of those methods directly.
* <p>
* The <code>Printable</code> 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.
* <code>PrintMode.NORMAL</code> 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 <code>ComponentOrientation</code>.
* <code>PrintMode.FIT_WIDTH</code> 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.
* <p>
* The <code>Printable</code> heads the portion of table on each page
* with the appropriate section from the table's <code>JTableHeader</code>,
* if it has one.
* <p>
* Header and footer text can be added to the output by providing
* <code>MessageFormat</code> arguments. The printing code requests
* Strings from the formats, providing a single item which may be included
* in the formatted string: an <code>Integer</code> representing the current
* page number.
* <p>
* You are encouraged to read the documentation for
* <code>MessageFormat</code> as some characters, such as single-quote,
* are special and need to be escaped.
* <p>
* Here's an example of creating a <code>MessageFormat</code> that can be
* used to print "Duke's Table: Page - " and the current page number:
*
* <pre>
* // 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}");
* </pre>
* <p>
* The <code>Printable</code> 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:
* <ul>
* <li>In any mode, when the header or footer text is too wide to fit
* completely in the printable area -- print as much of the text as
* possible starting from the beginning, as determined by the table's
* <code>ComponentOrientation</code>.
* <li>In any mode, when a row is too tall to fit in the
* printable area -- print the upper-most portion of the row
* and paint no lower border on the table.
* <li>In <code>PrintMode.NORMAL</code> when a column
* is too wide to fit in the printable area -- print the center
* portion of the column and leave the left and right borders
* off the table.
* </ul>
* <p>
* It is entirely valid for this <code>Printable</code> 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 <code>PrintMode.NORMAL</code> when it has to spread columns
* across pages.
* <p>
* As far as customizing how the table looks in the printed result,
* <code>JTable</code> 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()}
* <p>
* Also, <i>before</i> calling this method you may wish to <i>first</i>
* 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 <i>after</i> this <code>Printable</code>
* has been fetched (invalid modifications include changes in size or
* underlying data). The behavior of the returned <code>Printable</code>
* is undefined once the table has been changed.
*
* @param printMode the printing mode that the printable should use
* @param headerFormat a <code>MessageFormat</code> specifying the text to
* be used in printing a header, or null for none
* @param footerFormat a <code>MessageFormat</code> specifying the text to
* be used in printing a footer, or null for none
* @return a <code>Printable</code> 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.
/**
* A <code>Printable</code> implementation that wraps another
* <code>Printable</code>, making it safe for printing on another thread.
*/
private class ThreadSafePrintable implements Printable {
The delegate Printable
. /** The delegate <code>Printable</code>. */
private Printable printDelegate;
To communicate any return value when delegating.
/**
* To communicate any return value when delegating.
*/
private int retVal;
To communicate any Throwable
when delegating.
/**
* To communicate any <code>Throwable</code> when delegating.
*/
private Throwable retThrowable;
Construct a ThreadSafePrintable
around the given
delegate.
Params: - printDelegate – the
Printable
to delegate to
/**
* Construct a <code>ThreadSafePrintable</code> around the given
* delegate.
*
* @param printDelegate the <code>Printable</code> to delegate to
*/
public ThreadSafePrintable(Printable printDelegate) {
this.printDelegate = printDelegate;
}
Prints the specified page into the given 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.
Params: - graphics – the context into which the page is drawn
- pageFormat – the size and orientation of the page being drawn
- pageIndex – the zero based index of the page to be drawn
Throws: - PrinterException – if an error causes printing to be aborted
Returns: PAGE_EXISTS if the page is rendered successfully, or
NO_SUCH_PAGE if a non-existent page index is specified
/**
* Prints the specified page into the given {@link Graphics}
* context, in the specified format.
* <p>
* 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.
Returns: an AccessibleJTable that serves as the
AccessibleContext of this JTable
/**
* 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
*/
@BeanProperty(bound = false)
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 XMLEncoder
.
/**
* This class implements accessibility support for the
* <code>JTable</code> class. It provides an implementation of the
* Java Accessibility API appropriate to table user-interface elements.
* <p>
* <strong>Warning:</strong>
* Serialized objects of this class will not be compatible with
* future Swing releases. The current serialization support is
* appropriate for short term storage or RMI between applications running
* the same version of Swing. As of 1.4, support for long term storage
* of all JavaBeans
* has been added to the <code>java.beans</code> package.
* Please see {@link java.beans.XMLEncoder}.
*/
@SuppressWarnings("serial") // Same-version serialization only
protected class AccessibleJTable extends AccessibleJComponent
implements AccessibleSelection, ListSelectionListener, TableModelListener,
TableColumnModelListener, CellEditorListener, PropertyChangeListener,
AccessibleExtendedTable {
int previousFocusedRow;
int previousFocusedCol;
AccessibleJTable constructor
Since: 1.5
/**
* AccessibleJTable constructor
*
* @since 1.5
*/
protected AccessibleJTable() {
super();
JTable.this.putClientProperty("JTable.forceAutoStartsEdit", true);
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
/**
* 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.
/**
* Describes a change in the accessible table model.
*/
protected class AccessibleJTableModelChange
implements AccessibleTableModelChange {
The type /** The type */
protected int type;
The first row /** The first row */
protected int firstRow;
The last row /** The last row */
protected int lastRow;
The first column /** The first column */
protected int firstColumn;
The last column /** The last column */
protected int lastColumn;
Constructs an AccessibleJTableModelChange
. Params: - type – the type
- firstRow – the first row
- lastRow – the last row
- firstColumn – the first column
- lastColumn – the last column
/**
* Constructs an {@code AccessibleJTableModelChange}.
* @param type the type
* @param firstRow the first row
* @param lastRow the last row
* @param firstColumn the first column
* @param lastColumn the last column
*/
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;
}
Returns the type.
Returns: the type
/**
* Returns the type.
* @return the type
*/
public int getType() {
return type;
}
Returns the first row.
Returns: the first row
/**
* Returns the first row.
* @return the first row
*/
public int getFirstRow() {
return firstRow;
}
Returns the last row.
Returns: the last row
/**
* Returns the last row.
* @return the last row
*/
public int getLastRow() {
return lastRow;
}
Returns the first column.
Returns: the first column
/**
* Returns the first column.
* @return the first column
*/
public int getFirstColumn() {
return firstColumn;
}
Returns the last column.
Returns: the last column
/**
* Returns the last column.
* @return the last column
*/
public int getLastColumn() {
return lastColumn;
}
}
Track changes to the table contents
Params: - e – a
TableModelEvent
describing the event
/**
* Track changes to the table contents
*
* @param e a {@code TableModelEvent} describing the event
*/
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)
Params: - e – a
TableModelEvent
describing the event
/**
* Track changes to the table contents (row insertions)
*
* @param e a {@code TableModelEvent} describing the event
*/
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)
Params: - e – a
TableModelEvent
describing the event
/**
* Track changes to the table contents (row deletions)
*
* @param e a {@code TableModelEvent} describing the event
*/
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)
/**
* 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)
/**
* 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 Also: - TableColumnModelListener
/**
* 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 Also: - TableColumnModelListener
/**
* 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 Also: - TableColumnModelListener
/**
* 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 Also: - CellEditorListener
/**
* 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 Also: - CellEditorListener
/**
* 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
/**
* 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.
Returns: this object
/**
* 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.
See Also: Returns: an instance of AccessibleRole describing the role of the
object
/**
* 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
.
Params: - p – the point defining the top-left corner of the
Accessible
, given in the coordinate space
of the object's parent
Returns: the Accessible
, if it exists,
at the specified location; else null
/**
* Returns the <code>Accessible</code> child, if one exists,
* contained at the local coordinate <code>Point</code>.
*
* @param p the point defining the top-left corner of the
* <code>Accessible</code>, given in the coordinate space
* of the object's parent
* @return the <code>Accessible</code>, if it exists,
* at the specified location; else <code>null</code>
*/
public Accessible getAccessibleAt(Point p) {
int column = columnAtPoint(p);
int row = rowAtPoint(p);
if ((column != -1) && (row != -1)) {
if (row == getEditingRow() && column == getEditingColumn()) {
Component editor = getEditorComponent();
if (editor instanceof Accessible) {
return (Accessible) editor;
}
}
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.
Returns: the number of accessible children in the object
/**
* Returns the number of accessible children in the object. If all
* of the children of this object implement <code>Accessible</code>,
* 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.
Params: - i – zero-based index of child
Returns: the nth Accessible child of the object
/**
* Returns the nth <code>Accessible</code> 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);
if (row == getEditingRow() && column == getEditingColumn()) {
Component editor = getEditorComponent();
if (editor instanceof Accessible) {
return (Accessible) editor;
}
}
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.
Returns: the number of items currently selected
/**
* Returns the number of <code>Accessible</code> 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.
Params: - i – the zero-based index of selected children
See Also: Returns: the i-th selected child
/**
* Returns an <code>Accessible</code> 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 <code>null</code>.
* <p>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.
Params: - i – the zero-based index of the child in this
Accessible
object
See Also: Returns: true if the current child of this object is selected
/**
* Determines if the current child of this object is selected.
*
* @param i the zero-based index of the child in this
* <code>Accessible</code> 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 JTable
s which have
individual cell selection enabled.
Params: - i – the zero-based index of the child
See Also:
/**
* Adds the specified <code>Accessible</code> 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.
* <p>
* This method only works on <code>JTable</code>s 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.
Params: - i – the zero-based index of the child
See Also:
/**
* 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.
* <p>
* This method only works on <code>JTables</code> 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.
/**
* 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.
/**
* Causes every child of the object to be selected, but only
* if the <code>JTable</code> 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.
Params: - index – the zero-based index in the table
Returns: the zero-based row of the table if one exists;
otherwise -1. Since: 1.4
/**
* 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.
Params: - index – the zero-based index in the table
Returns: the zero-based column of the table if one exists;
otherwise -1. Since: 1.4
/**
* 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.
Params: - r – zero-based row of the table
- c – zero-based column of the table
Returns: the zero-based index in the table if one exists;
otherwise -1. Since: 1.4
/**
* 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.
Returns: this object Since: 1.3
/**
* Gets the <code>AccessibleTable</code> associated with this
* object. In the implementation of the Java Accessibility
* API for this class, return this object, which is responsible
* for implementing the <code>AccessibleTables</code> interface
* on behalf of itself.
*
* @return this object
* @since 1.3
*/
public AccessibleTable getAccessibleTable() {
return this;
}
Returns the caption for the table.
Returns: the caption for the table Since: 1.3
/**
* 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.
Params: - a – the caption for the table
Since: 1.3
/**
* 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.
Returns: the summary description of the table Since: 1.3
/**
* 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.
Params: - a – the summary description of the table
Since: 1.3
/**
* 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 <code>Accessible</code> 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 <code>Accessible</code> 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.
Returns: the number of rows occupied by the Accessible
at a specified row and column in the table Since: 1.3
/**
* Returns the number of rows occupied by the <code>Accessible</code>
* at a specified row and column in the table.
*
* @return the number of rows occupied by the <code>Accessible</code>
* 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).
Returns: the number of columns occupied by the Accessible
at a specified row and column in the table Since: 1.3
/**
* Returns the number of columns occupied by the
* <code>Accessible</code> at a given (row, column).
*
* @return the number of columns occupied by the <code>Accessible</code>
* 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
.
Returns: an AccessibleTable
representing the row
headers Since: 1.3
/**
* Returns the row headers as an <code>AccessibleTable</code>.
*
* @return an <code>AccessibleTable</code> representing the row
* headers
* @since 1.3
*/
public AccessibleTable getAccessibleRowHeader() {
// row headers are not supported
return null;
}
Sets the row headers as an AccessibleTable
.
Params: - a – an
AccessibleTable
representing the row
headers
Since: 1.3
/**
* Sets the row headers as an <code>AccessibleTable</code>.
*
* @param a an <code>AccessibleTable</code> 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
/**
* Returns the column headers as an <code>AccessibleTable</code>.
*
* @return an <code>AccessibleTable</code> representing the column
* headers, or <code>null</code> if the table header is
* <code>null</code>
* @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.
Returns: the caption for the table
/**
* Returns the caption for the table.
*
* @return the caption for the table
*/
public Accessible getAccessibleCaption() { return null; }
Sets the caption for the table.
Params: - a – the caption for the table
/**
* 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.
Returns: the summary description of the table
/**
* 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
Params: - a – the summary description of the table
/**
* 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.
Returns: the number of rows in the table
/**
* 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.
Returns: the number of columns in the table
/**
* 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.
Params: - row – zero-based row of the table
- column – zero-based column of the table
Returns: the Accessible at the specified row and column
/**
* 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.
Returns: the number of rows occupied by the Accessible at a
given specified (row, column)
/**
* 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.
Returns: the number of columns occupied by the Accessible at a
given specified row and column
/**
* 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.
Returns: an AccessibleTable representing the row
headers
/**
* Returns the row headers as an AccessibleTable.
*
* @return an AccessibleTable representing the row
* headers
*/
public AccessibleTable getAccessibleRowHeader() { return null; }
Sets the row headers.
Params: - table – an AccessibleTable representing the
row headers
/**
* Sets the row headers.
*
* @param table an AccessibleTable representing the
* row headers
*/
public void setAccessibleRowHeader(AccessibleTable table) {}
Returns the column headers as an AccessibleTable.
Returns: an AccessibleTable representing the column
headers
/**
* Returns the column headers as an AccessibleTable.
*
* @return an AccessibleTable representing the column
* headers
*/
public AccessibleTable getAccessibleColumnHeader() { return null; }
Sets the column headers.
Params: - table – an AccessibleTable representing the
column headers
Since: 1.3
/**
* 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.
Params: - r – zero-based row of the table
Returns: the description of the row Since: 1.3
/**
* 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.
Params: - r – zero-based row of the table
- a – the description of the row
Since: 1.3
/**
* 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.
Params: - c – zero-based column of the table
Returns: the text description of the column Since: 1.3
/**
* 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.
Params: - c – zero-based column of the table
- a – the text description of the column
Since: 1.3
/**
* 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.
Params: - r – zero-based row of the table
- c – zero-based column of the table
Returns: the boolean value true if the accessible at the
row and column is selected. Otherwise, the boolean value
false Since: 1.3
/**
* 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.
Params: - r – zero-based row of the table
Returns: the boolean value true if the specified row is selected.
Otherwise, false. Since: 1.3
/**
* 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.
Params: - c – zero-based column of the table
Returns: the boolean value true if the specified column is selected.
Otherwise, false. Since: 1.3
/**
* 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.
Returns: an array of selected rows where each element is a
zero-based row of the table Since: 1.3
/**
* 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.
Returns: an array of selected columns where each element is a
zero-based column of the table Since: 1.3
/**
* 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
.
Params: - a – an
AccessibleTable
representing the
column headers
Since: 1.3
/**
* Sets the column headers as an <code>AccessibleTable</code>.
*
* @param a an <code>AccessibleTable</code> 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.
Params: - r – zero-based row of the table
Returns: the description of the row Since: 1.3
/**
* 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.
Params: - r – zero-based row of the table
- a – the description of the row
Since: 1.3
/**
* 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.
Params: - c – zero-based column of the table
Returns: the description of the column Since: 1.3
/**
* 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.
Params: - c – zero-based column of the table
- a – the description of the column
Since: 1.3
/**
* 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.
Params: - r – zero-based row of the table
- c – zero-based column of the table
Returns: the boolean value true if the accessible at (row, column)
is selected; otherwise, the boolean value false Since: 1.3
/**
* 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.
Params: - r – zero-based row of the table
Returns: the boolean value true if the specified row is selected;
otherwise, false Since: 1.3
/**
* 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.
Params: - c – zero-based column of the table
Returns: the boolean value true if the specified column is selected;
otherwise, false Since: 1.3
/**
* 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.
Returns: an array of selected rows where each element is a
zero-based row of the table Since: 1.3
/**
* 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.
Returns: an array of selected columns where each element is a
zero-based column of the table Since: 1.3
/**
* 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.
Params: - i – zero-based index into the table
Returns: the row at a given index Since: 1.3
/**
* 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.
Params: - i – zero-based index into the table
Returns: the column at a given index Since: 1.3
/**
* 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.
Params: - r – zero-based row of the table
- c – zero-based column of the table
Returns: the index into the table Since: 1.3
/**
* 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.
/**
* 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
.
Params: - t – a
JTable
- r – an
int
specifying a row - c – an
int
specifying a column - i – an
int
specifying the index to this cell
Since: 1.4
/**
* Constructs an <code>AccessibleJTableHeaderEntry</code>.
*
* @param t a {@code JTable}
* @param r an {@code int} specifying a row
* @param c an {@code int} specifying a column
* @param i an {@code int} specifying the index to this cell
* @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
.
Returns: this object
/**
* Gets the <code>AccessibleContext</code> associated with this
* component. In the implementation of the Java Accessibility
* API for this class, return this object, which is its own
* <code>AccessibleContext</code>.
*
* @return this object
*/
public AccessibleContext getAccessibleContext() {
return this;
}
Gets the AccessibleContext for the table cell renderer.
Returns: the AccessibleContext
for the table
cell renderer if one exists;
otherwise, returns null
. Since: 1.6
/**
* Gets the AccessibleContext for the table cell renderer.
*
* @return the <code>AccessibleContext</code> for the table
* cell renderer if one exists;
* otherwise, returns <code>null</code>.
* @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.
Returns: the table cell renderer component if one exists;
otherwise, returns null
. Since: 1.6
/**
* Gets the table cell renderer component.
*
* @return the table cell renderer component if one exists;
* otherwise, returns <code>null</code>.
* @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.
Returns: the localized name of the object; null
if this object does not have a name
/**
* Gets the accessible name of this object.
*
* @return the localized name of the object; <code>null</code>
* 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.
Params: - s – the new localized name of the object
/**
* 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.
Returns: the localized description of the object;
null
if this object does not have
a description
/**
* Gets the accessible description of this object.
*
* @return the localized description of the object;
* <code>null</code> 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.
Params: - s – the new localized description of the object
/**
* 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.
See Also: Returns: an instance of AccessibleRole
describing the role of the object
/**
* Gets the role of this object.
*
* @return an instance of <code>AccessibleRole</code>
* 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.
See Also: Returns: an instance of AccessibleStateSet
containing the current state set of the object
/**
* Gets the state set of this object.
*
* @return an instance of <code>AccessibleStateSet</code>
* 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.
Returns: the Accessible parent of this object;
null
if this object does not
have an Accessible
parent
/**
* Gets the <code>Accessible</code> parent of this object.
*
* @return the Accessible parent of this object;
* <code>null</code> if this object does not
* have an <code>Accessible</code> parent
*/
public Accessible getAccessibleParent() {
return parent;
}
Gets the index of this object in its accessible parent.
See Also: Returns: the index of this object in its parent; -1 if this
object does not have an accessible 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.
Returns: the number of accessible children in the object
/**
* 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.
Params: - i – zero-based index of child
Returns: the Accessible
child of the object
/**
* Returns the specified <code>Accessible</code> child of the
* object.
*
* @param i zero-based index of child
* @return the <code>Accessible</code> 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.
Throws: - 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 Also: - setLocale
Returns: this component's locale; if this component does
not have a locale, the locale of its parent is returned
/**
* 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
* <code>Component</code> 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.
Params: - l – the
PropertyChangeListener
to be added
/**
* Adds a <code>PropertyChangeListener</code> to the listener list.
* The listener is registered for all properties.
*
* @param l the <code>PropertyChangeListener</code>
* 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.
Params: - l – the
PropertyChangeListener
to be removed
/**
* Removes a <code>PropertyChangeListener</code> from the
* listener list. This removes a <code>PropertyChangeListener</code>
* that was registered for all properties.
*
* @param l the <code>PropertyChangeListener</code>
* 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
.
Returns: the AccessibleAction
, or null
/**
* Gets the <code>AccessibleAction</code> associated with this
* object if one exists. Otherwise returns <code>null</code>.
*
* @return the <code>AccessibleAction</code>, or <code>null</code>
*/
public AccessibleAction getAccessibleAction() {
return getCurrentAccessibleContext().getAccessibleAction();
}
Gets the AccessibleComponent
associated with
this object if one exists. Otherwise returns null
.
Returns: the AccessibleComponent
, or
null
/**
* Gets the <code>AccessibleComponent</code> associated with
* this object if one exists. Otherwise returns <code>null</code>.
*
* @return the <code>AccessibleComponent</code>, or
* <code>null</code>
*/
public AccessibleComponent getAccessibleComponent() {
return this; // to override getBounds()
}
Gets the AccessibleSelection
associated with
this object if one exists. Otherwise returns null
.
Returns: the AccessibleSelection
, or
null
/**
* Gets the <code>AccessibleSelection</code> associated with
* this object if one exists. Otherwise returns <code>null</code>.
*
* @return the <code>AccessibleSelection</code>, or
* <code>null</code>
*/
public AccessibleSelection getAccessibleSelection() {
return getCurrentAccessibleContext().getAccessibleSelection();
}
Gets the AccessibleText
associated with this
object if one exists. Otherwise returns null
.
Returns: the AccessibleText
, or null
/**
* Gets the <code>AccessibleText</code> associated with this
* object if one exists. Otherwise returns <code>null</code>.
*
* @return the <code>AccessibleText</code>, or <code>null</code>
*/
public AccessibleText getAccessibleText() {
return getCurrentAccessibleContext().getAccessibleText();
}
Gets the AccessibleValue
associated with
this object if one exists. Otherwise returns null
.
Returns: the AccessibleValue
, or null
/**
* Gets the <code>AccessibleValue</code> associated with
* this object if one exists. Otherwise returns <code>null</code>.
*
* @return the <code>AccessibleValue</code>, or <code>null</code>
*/
public AccessibleValue getAccessibleValue() {
return getCurrentAccessibleContext().getAccessibleValue();
}
// AccessibleComponent methods
Gets the background color of this object.
Returns: the background color, if supported, of the object;
otherwise, null
/**
* Gets the background color of this object.
*
* @return the background color, if supported, of the object;
* otherwise, <code>null</code>
*/
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.
Params: - c – the new
Color
for the background
/**
* Sets the background color of this object.
*
* @param c the new <code>Color</code> 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.
Returns: the foreground color, if supported, of the object;
otherwise, null
/**
* Gets the foreground color of this object.
*
* @return the foreground color, if supported, of the object;
* otherwise, <code>null</code>
*/
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.
Params: - c – the new
Color
for the foreground
/**
* Sets the foreground color of this object.
*
* @param c the new <code>Color</code> 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.
Returns: the Cursor
, if supported,
of the object; otherwise, null
/**
* Gets the <code>Cursor</code> of this object.
*
* @return the <code>Cursor</code>, if supported,
* of the object; otherwise, <code>null</code>
*/
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.
Params: - c – the new
Cursor
for the object
/**
* Sets the <code>Cursor</code> of this object.
*
* @param c the new <code>Cursor</code> 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.
Returns: the Font
,if supported,
for the object; otherwise, null
/**
* Gets the <code>Font</code> of this object.
*
* @return the <code>Font</code>,if supported,
* for the object; otherwise, <code>null</code>
*/
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.
Params: - f – the new
Font
for the object
/**
* Sets the <code>Font</code> of this object.
*
* @param f the new <code>Font</code> 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.
Params: - f – the
Font
See Also: Returns: the FontMetrics
object, if supported;
otherwise null
/**
* Gets the <code>FontMetrics</code> of this object.
*
* @param f the <code>Font</code>
* @return the <code>FontMetrics</code> object, if supported;
* otherwise <code>null</code>
* @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.
Returns: true if object is enabled; otherwise, false
/**
* 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.
Params: - b – if true, enables this object; otherwise, disables it
/**
* 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
.
Returns: true if object is visible; otherwise, false
/**
* 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 <code>isShowing</code>.
*
* @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.
Params: - b – if true, shows this object; otherwise, hides it
/**
* 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).
Returns: true if the object is showing; otherwise, false
/**
* 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.
Params: - p – the
Point
relative to the
coordinate system of the object
Returns: true if object contains Point
;
otherwise 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 <code>Point</code> relative to the
* coordinate system of the object
* @return true if object contains <code>Point</code>;
* 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.
Returns: location of object on screen -- can be
null
if this object is not on the screen
/**
* Returns the location of the object on the screen.
*
* @return location of object on screen -- can be
* <code>null</code> 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.
Returns: 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
/**
* 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 <code>Point</code> representing
* the top-left corner of the object's bounds in the
* coordinate space of the screen; <code>null</code> 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.
/**
* 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;
}
}
@SuppressWarnings("deprecation")
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.
/**
* 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.
Params: - row – header cell row index
- column – header cell column index
- parent – header cell parent
- rendererComponent – component that renders the header cell
/**
* Constructs an <code>AccessibleJTableHeaderEntry</code> 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
.
Returns: this object
/**
* Gets the <code>AccessibleContext</code> associated with this
* component. In the implementation of the Java Accessibility
* API for this class, return this object, which is its own
* <code>AccessibleContext</code>.
*
* @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.
Returns: the localized name of the object; null
if this object does not have a name
/**
* Gets the accessible name of this object.
*
* @return the localized name of the object; <code>null</code>
* 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.
Params: - s – the new localized name of the object
/**
* 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.
Returns: the localized description of the object;
null
if this object does not have
a description
/**
* Gets the accessible description of this object.
*
* @return the localized description of the object;
* <code>null</code> 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.
Params: - s – the new localized description of the object
/**
* 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.
See Also: Returns: an instance of AccessibleRole
describing the role of the object
/**
* Gets the role of this object.
*
* @return an instance of <code>AccessibleRole</code>
* 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.
See Also: Returns: an instance of AccessibleStateSet
containing the current state set of the object
/**
* Gets the state set of this object.
*
* @return an instance of <code>AccessibleStateSet</code>
* 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.
Returns: the Accessible parent of this object;
null
if this object does not
have an Accessible
parent
/**
* Gets the <code>Accessible</code> parent of this object.
*
* @return the Accessible parent of this object;
* <code>null</code> if this object does not
* have an <code>Accessible</code> parent
*/
public Accessible getAccessibleParent() {
return parent;
}
Gets the index of this object in its accessible parent.
See Also: Returns: the index of this object in its parent; -1 if this
object does not have an accessible 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.
Returns: the number of accessible children in the object
/**
* 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.
Params: - i – zero-based index of child
Returns: the Accessible
child of the object
/**
* Returns the specified <code>Accessible</code> child of the
* object.
*
* @param i zero-based index of child
* @return the <code>Accessible</code> 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.
Throws: - 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 Also: - setLocale
Returns: this component's locale; if this component does
not have a locale, the locale of its parent is returned
/**
* 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
* <code>Component</code> 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.
Params: - l – the
PropertyChangeListener
to be added
/**
* Adds a <code>PropertyChangeListener</code> to the listener list.
* The listener is registered for all properties.
*
* @param l the <code>PropertyChangeListener</code>
* 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.
Params: - l – the
PropertyChangeListener
to be removed
/**
* Removes a <code>PropertyChangeListener</code> from the
* listener list. This removes a <code>PropertyChangeListener</code>
* that was registered for all properties.
*
* @param l the <code>PropertyChangeListener</code>
* 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
.
Returns: the AccessibleAction
, or null
/**
* Gets the <code>AccessibleAction</code> associated with this
* object if one exists. Otherwise returns <code>null</code>.
*
* @return the <code>AccessibleAction</code>, or <code>null</code>
*/
public AccessibleAction getAccessibleAction() {
return getCurrentAccessibleContext().getAccessibleAction();
}
Gets the AccessibleComponent
associated with
this object if one exists. Otherwise returns null
.
Returns: the AccessibleComponent
, or
null
/**
* Gets the <code>AccessibleComponent</code> associated with
* this object if one exists. Otherwise returns <code>null</code>.
*
* @return the <code>AccessibleComponent</code>, or
* <code>null</code>
*/
public AccessibleComponent getAccessibleComponent() {
return this; // to override getBounds()
}
Gets the AccessibleSelection
associated with
this object if one exists. Otherwise returns null
.
Returns: the AccessibleSelection
, or
null
/**
* Gets the <code>AccessibleSelection</code> associated with
* this object if one exists. Otherwise returns <code>null</code>.
*
* @return the <code>AccessibleSelection</code>, or
* <code>null</code>
*/
public AccessibleSelection getAccessibleSelection() {
return getCurrentAccessibleContext().getAccessibleSelection();
}
Gets the AccessibleText
associated with this
object if one exists. Otherwise returns null
.
Returns: the AccessibleText
, or null
/**
* Gets the <code>AccessibleText</code> associated with this
* object if one exists. Otherwise returns <code>null</code>.
*
* @return the <code>AccessibleText</code>, or <code>null</code>
*/
public AccessibleText getAccessibleText() {
return getCurrentAccessibleContext().getAccessibleText();
}
Gets the AccessibleValue
associated with
this object if one exists. Otherwise returns null
.
Returns: the AccessibleValue
, or null
/**
* Gets the <code>AccessibleValue</code> associated with
* this object if one exists. Otherwise returns <code>null</code>.
*
* @return the <code>AccessibleValue</code>, or <code>null</code>
*/
public AccessibleValue getAccessibleValue() {
return getCurrentAccessibleContext().getAccessibleValue();
}
// AccessibleComponent methods ==========
Gets the background color of this object.
Returns: the background color, if supported, of the object;
otherwise, null
/**
* Gets the background color of this object.
*
* @return the background color, if supported, of the object;
* otherwise, <code>null</code>
*/
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.
Params: - c – the new
Color
for the background
/**
* Sets the background color of this object.
*
* @param c the new <code>Color</code> 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.
Returns: the foreground color, if supported, of the object;
otherwise, null
/**
* Gets the foreground color of this object.
*
* @return the foreground color, if supported, of the object;
* otherwise, <code>null</code>
*/
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.
Params: - c – the new
Color
for the foreground
/**
* Sets the foreground color of this object.
*
* @param c the new <code>Color</code> 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.
Returns: the Cursor
, if supported,
of the object; otherwise, null
/**
* Gets the <code>Cursor</code> of this object.
*
* @return the <code>Cursor</code>, if supported,
* of the object; otherwise, <code>null</code>
*/
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.
Params: - c – the new
Cursor
for the object
/**
* Sets the <code>Cursor</code> of this object.
*
* @param c the new <code>Cursor</code> 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.
Returns: the Font
,if supported,
for the object; otherwise, null
/**
* Gets the <code>Font</code> of this object.
*
* @return the <code>Font</code>,if supported,
* for the object; otherwise, <code>null</code>
*/
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.
Params: - f – the new
Font
for the object
/**
* Sets the <code>Font</code> of this object.
*
* @param f the new <code>Font</code> 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.
Params: - f – the
Font
See Also: Returns: the FontMetrics
object, if supported;
otherwise null
/**
* Gets the <code>FontMetrics</code> of this object.
*
* @param f the <code>Font</code>
* @return the <code>FontMetrics</code> object, if supported;
* otherwise <code>null</code>
* @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.
Returns: true if object is enabled; otherwise, false
/**
* 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.
Params: - b – if true, enables this object; otherwise, disables it
/**
* 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
.
Returns: true if object is visible; otherwise, false
/**
* 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 <code>isShowing</code>.
*
* @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.
Params: - b – if true, shows this object; otherwise, hides it
/**
* 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).
Returns: true if the object is showing; otherwise, false
/**
* 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.
Params: - p – the
Point
relative to the
coordinate system of the object
Returns: true if object contains Point
;
otherwise 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 <code>Point</code> relative to the
* coordinate system of the object
* @return true if object contains <code>Point</code>;
* 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.
Returns: location of object on screen -- can be
null
if this object is not on the screen
/**
* Returns the location of the object on the screen.
*
* @return location of object on screen -- can be
* <code>null</code> 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.
Returns: 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
/**
* 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 <code>Point</code> representing
* the top-left corner of the object's bounds in the
* coordinate space of the screen; <code>null</code> 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.
Params: - p – the new position for the top-left corner
See Also:
/**
* 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.
See Also: Returns: A rectangle indicating this component's bounds; null if
this object is not on the screen.
/**
* 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.
Params: - r – rectangle indicating this component's bounds
See Also:
/**
* 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.
See Also: Returns: A Dimension object that indicates the size of this component;
null if this object is not on the screen
/**
* 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.
Params: - d – The dimension specifying the new size of the object.
See Also:
/**
* 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.
Params: - p – The point relative to the coordinate system of this object.
Returns: the Accessible, if it exists, at the specified location;
otherwise null
/**
* 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.
See Also: Returns: true if object can accept focus; otherwise false
/**
* 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
*/
@SuppressWarnings("deprecation")
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 Also: - isFocusTraversable
/**
* 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.
Params: - l – the focus listener
See Also:
/**
* 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.
Params: - l – the focus listener
See Also:
/**
* 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