/*
* Copyright (c) 2005, 2006, Oracle and/or its affiliates. All rights reserved.
* ORACLE PROPRIETARY/CONFIDENTIAL. Use is subject to license terms.
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*/
package javax.swing.table;
import java.text.
Collator;
import java.util.*;
import javax.swing.
DefaultRowSorter;
import javax.swing.
RowFilter;
import javax.swing.
SortOrder;
/**
* An implementation of <code>RowSorter</code> that provides sorting
* and filtering using a <code>TableModel</code>.
* The following example shows adding sorting to a <code>JTable</code>:
* <pre>
* TableModel myModel = createMyTableModel();
* JTable table = new JTable(myModel);
* table.setRowSorter(new TableRowSorter(myModel));
* </pre>
* This will do all the wiring such that when the user does the appropriate
* gesture, such as clicking on the column header, the table will
* visually sort.
* <p>
* <code>JTable</code>'s row-based methods and <code>JTable</code>'s
* selection model refer to the view and not the underlying
* model. Therefore, it is necessary to convert between the two. For
* example, to get the selection in terms of <code>myModel</code>
* you need to convert the indices:
* <pre>
* int[] selection = table.getSelectedRows();
* for (int i = 0; i < selection.length; i++) {
* selection[i] = table.convertRowIndexToModel(selection[i]);
* }
* </pre>
* Similarly to select a row in <code>JTable</code> based on
* a coordinate from the underlying model do the inverse:
* <pre>
* table.setRowSelectionInterval(table.convertRowIndexToView(row),
* table.convertRowIndexToView(row));
* </pre>
* <p>
* The previous example assumes you have not enabled filtering. If you
* have enabled filtering <code>convertRowIndexToView</code> will return
* -1 for locations that are not visible in the view.
* <p>
* <code>TableRowSorter</code> uses <code>Comparator</code>s for doing
* comparisons. The following defines how a <code>Comparator</code> is
* chosen for a column:
* <ol>
* <li>If a <code>Comparator</code> has been specified for the column by the
* <code>setComparator</code> method, use it.
* <li>If the column class as returned by <code>getColumnClass</code> is
* <code>String</code>, use the <code>Comparator</code> returned by
* <code>Collator.getInstance()</code>.
* <li>If the column class implements <code>Comparable</code>, use a
* <code>Comparator</code> that invokes the <code>compareTo</code>
* method.
* <li>If a <code>TableStringConverter</code> has been specified, use it
* to convert the values to <code>String</code>s and then use the
* <code>Comparator</code> returned by <code>Collator.getInstance()</code>.
* <li>Otherwise use the <code>Comparator</code> returned by
* <code>Collator.getInstance()</code> on the results from
* calling <code>toString</code> on the objects.
* </ol>
* <p>
* In addition to sorting <code>TableRowSorter</code> provides the ability
* to filter. A filter is specified using the <code>setFilter</code>
* method. The following example will only show rows containing the string
* "foo":
* <pre>
* TableModel myModel = createMyTableModel();
* TableRowSorter sorter = new TableRowSorter(myModel);
* sorter.setRowFilter(RowFilter.regexFilter(".*foo.*"));
* JTable table = new JTable(myModel);
* table.setRowSorter(sorter);
* </pre>
* <p>
* If the underlying model structure changes (the
* <code>modelStructureChanged</code> method is invoked) the following
* are reset to their default values: <code>Comparator</code>s by
* column, current sort order, and whether each column is sortable. The default
* sort order is natural (the same as the model), and columns are
* sortable by default.
* <p>
* <code>TableRowSorter</code> has one formal type parameter: the type
* of the model. Passing in a type that corresponds exactly to your
* model allows you to filter based on your model without casting.
* Refer to the documentation of <code>RowFilter</code> for an example
* of this.
* <p>
* <b>WARNING:</b> <code>DefaultTableModel</code> returns a column
* class of <code>Object</code>. As such all comparisons will
* be done using <code>toString</code>. This may be unnecessarily
* expensive. If the column only contains one type of value, such as
* an <code>Integer</code>, you should override <code>getColumnClass</code> and
* return the appropriate <code>Class</code>. This will dramatically
* increase the performance of this class.
*
* @param <M> the type of the model, which must be an implementation of
* <code>TableModel</code>
* @see javax.swing.JTable
* @see javax.swing.RowFilter
* @see javax.swing.table.DefaultTableModel
* @see java.text.Collator
* @see java.util.Comparator
* @since 1.6
*/
public class
TableRowSorter<M extends
TableModel> extends
DefaultRowSorter<M,
Integer> {
/**
* Comparator that uses compareTo on the contents.
*/
private static final
Comparator COMPARABLE_COMPARATOR =
new
ComparableComparator();
/**
* Underlying model.
*/
private M
tableModel;
/**
* For toString conversions.
*/
private
TableStringConverter stringConverter;
/**
* Creates a <code>TableRowSorter</code> with an empty model.
*/
public
TableRowSorter() {
this(null);
}
/**
* Creates a <code>TableRowSorter</code> using <code>model</code>
* as the underlying <code>TableModel</code>.
*
* @param model the underlying <code>TableModel</code> to use,
* <code>null</code> is treated as an empty model
*/
public
TableRowSorter(M
model) {
setModel(
model);
}
/**
* Sets the <code>TableModel</code> to use as the underlying model
* for this <code>TableRowSorter</code>. A value of <code>null</code>
* can be used to set an empty model.
*
* @param model the underlying model to use, or <code>null</code>
*/
public void
setModel(M
model) {
tableModel =
model;
setModelWrapper(new
TableRowSorterModelWrapper());
}
/**
* Sets the object responsible for converting values from the
* model to strings. If non-<code>null</code> this
* is used to convert any object values, that do not have a
* registered <code>Comparator</code>, to strings.
*
* @param stringConverter the object responsible for converting values
* from the model to strings
*/
public void
setStringConverter(
TableStringConverter stringConverter) {
this.
stringConverter =
stringConverter;
}
/**
* Returns the object responsible for converting values from the
* model to strings.
*
* @return object responsible for converting values to strings.
*/
public
TableStringConverter getStringConverter() {
return
stringConverter;
}
/**
* Returns the <code>Comparator</code> for the specified
* column. If a <code>Comparator</code> has not been specified using
* the <code>setComparator</code> method a <code>Comparator</code>
* will be returned based on the column class
* (<code>TableModel.getColumnClass</code>) of the specified column.
* If the column class is <code>String</code>,
* <code>Collator.getInstance</code> is returned. If the
* column class implements <code>Comparable</code> a private
* <code>Comparator</code> is returned that invokes the
* <code>compareTo</code> method. Otherwise
* <code>Collator.getInstance</code> is returned.
*
* @throws IndexOutOfBoundsException {@inheritDoc}
*/
public
Comparator<?>
getComparator(int
column) {
Comparator comparator = super.getComparator(
column);
if (
comparator != null) {
return
comparator;
}
Class columnClass =
getModel().
getColumnClass(
column);
if (
columnClass ==
String.class) {
return
Collator.
getInstance();
}
if (
Comparable.class.
isAssignableFrom(
columnClass)) {
return
COMPARABLE_COMPARATOR;
}
return
Collator.
getInstance();
}
/**
* {@inheritDoc}
*
* @throws IndexOutOfBoundsException {@inheritDoc}
*/
protected boolean
useToString(int
column) {
Comparator comparator = super.getComparator(
column);
if (
comparator != null) {
return false;
}
Class columnClass =
getModel().
getColumnClass(
column);
if (
columnClass ==
String.class) {
return false;
}
if (
Comparable.class.
isAssignableFrom(
columnClass)) {
return false;
}
return true;
}
/**
* Implementation of DefaultRowSorter.ModelWrapper that delegates to a
* TableModel.
*/
private class
TableRowSorterModelWrapper extends
ModelWrapper<M,
Integer> {
public M
getModel() {
return
tableModel;
}
public int
getColumnCount() {
return (
tableModel == null) ? 0 :
tableModel.
getColumnCount();
}
public int
getRowCount() {
return (
tableModel == null) ? 0 :
tableModel.
getRowCount();
}
public
Object getValueAt(int
row, int
column) {
return
tableModel.
getValueAt(
row,
column);
}
public
String getStringValueAt(int
row, int
column) {
TableStringConverter converter =
getStringConverter();
if (
converter != null) {
// Use the converter
String value =
converter.
toString(
tableModel,
row,
column);
if (
value != null) {
return
value;
}
return "";
}
// No converter, use getValueAt followed by toString
Object o =
getValueAt(
row,
column);
if (
o == null) {
return "";
}
String string =
o.
toString();
if (
string == null) {
return "";
}
return
string;
}
public
Integer getIdentifier(int
index) {
return
index;
}
}
private static class
ComparableComparator implements
Comparator {
@
SuppressWarnings("unchecked")
public int
compare(
Object o1,
Object o2) {
return ((
Comparable)
o1).
compareTo(
o2);
}
}
}