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I am trying to make:

  • A JTree where ALL nodes have the possibility of a JCheckBox.

  • After having selected the different checkboxes I would like to be able to extract strings stating the node path to the different checked nodes.

  • The leader node must be able to show if a child node has been selected.

I have included a small SSCCE

import javax.swing.JFrame;
import javax.swing.JTree;
import javax.swing.tree.DefaultTreeModel;
import javax.swing.tree.DefaultMutableTreeNode;
import java.awt.Color;
import java.awt.EventQueue;

public class ptf_viewer extends JFrame {
    private static final long serialVersionUID = 1L;

    static JTree tree = new JTree();

    public static void main(String[] args) throws Exception {
        EventQueue.invokeLater(new Runnable() {
            public void run() {
                try {
                    ptf_viewer frame = new ptf_viewer();
                    frame.setVisible(true);
                } catch (Exception e) {
                    e.printStackTrace();
                }
            }
        }); 
    }
    public ptf_viewer() throws Exception
    {
        getContentPane().setBackground(Color.WHITE);
        setDefaultCloseOperation(JFrame.EXIT_ON_CLOSE);
        setBounds(100, 100, 800, 600);
        getContentPane().setLayout(null);
        tree.setVisibleRowCount(50);

        tree.setRootVisible(false);
        tree.setModel(new DefaultTreeModel(
            new DefaultMutableTreeNode("test") {
                private static final long serialVersionUID = 1L;

                {
                    DefaultMutableTreeNode node_1;
                    DefaultMutableTreeNode node_2;
                    DefaultMutableTreeNode node_3;
                    DefaultMutableTreeNode node_4;
                    DefaultMutableTreeNode node_5;
                    DefaultMutableTreeNode node_6;
                    node_1 = new DefaultMutableTreeNode("Aarhus");
                        node_2 = new DefaultMutableTreeNode("protection");
                            node_3 = new DefaultMutableTreeNode("grid");
                                node_4 = new DefaultMutableTreeNode("plant");
                                    node_5 = new DefaultMutableTreeNode("disconnection");
                                        node_5.add(new DefaultMutableTreeNode("voltage"));
                                        node_5.add(new DefaultMutableTreeNode("frequency"));
                                        node_5.add(new DefaultMutableTreeNode("current"));
                                    node_4.add(node_5);
                                    node_5 = new DefaultMutableTreeNode("connection");
                                        node_5.add(new DefaultMutableTreeNode("voltage"));
                                        node_5.add(new DefaultMutableTreeNode("frequency"));
                                    node_4.add(node_5);
                                    node_5 = new DefaultMutableTreeNode("reconnection");
                                        node_6 = new DefaultMutableTreeNode("longInterrupt");
                                            node_6.add(new DefaultMutableTreeNode("voltage"));
                                            node_6.add(new DefaultMutableTreeNode("frequency"));
                                        node_5.add(node_6);
                                        node_6 = new DefaultMutableTreeNode("shortInterrupt");
                                            node_6.add(new DefaultMutableTreeNode("voltage"));
                                            node_6.add(new DefaultMutableTreeNode("frequency"));
                                        node_5.add(node_6);
                                    node_4.add(node_5);
                                node_3.add(node_4);
                                node_4 = new DefaultMutableTreeNode("unit");
                                    node_5 = new DefaultMutableTreeNode("disconnection");
                                        node_5.add(new DefaultMutableTreeNode("voltage"));
                                        node_5.add(new DefaultMutableTreeNode("frequency"));
                                        node_5.add(new DefaultMutableTreeNode("LOM"));
                                        node_5.add(new DefaultMutableTreeNode("current"));
                                        node_5.add(new DefaultMutableTreeNode("dcImmunity"));
                                    node_4.add(node_5);
                                    node_5 = new DefaultMutableTreeNode("stability");
                                        node_5.add(new DefaultMutableTreeNode("voltage"));
                                        node_5.add(new DefaultMutableTreeNode("frequency"));
                                        node_5.add(new DefaultMutableTreeNode("current"));
                                    node_4.add(node_5);
                                    node_5 = new DefaultMutableTreeNode("connection");
                                        node_5.add(new DefaultMutableTreeNode("voltage"));
                                        node_5.add(new DefaultMutableTreeNode("frequency"));
                                    node_4.add(node_5);
                                    node_5 = new DefaultMutableTreeNode("reconnection");
                                        node_6 = new DefaultMutableTreeNode("longInterrupt");
                                            node_6.add(new DefaultMutableTreeNode("voltage"));
                                            node_6.add(new DefaultMutableTreeNode("frequency"));
                                        node_5.add(node_6);
                                        node_6 = new DefaultMutableTreeNode("shortInterrupt");
                                            node_6.add(new DefaultMutableTreeNode("voltage"));
                                            node_6.add(new DefaultMutableTreeNode("frequency"));
                                        node_5.add(node_6);
                                    node_4.add(node_5);
                                node_3.add(node_4);
                            node_2.add(node_3);
                            node_3 = new DefaultMutableTreeNode("generator");
                                node_3.add(new DefaultMutableTreeNode("photovoltaic"));
                            node_2.add(node_3);
                            node_3 = new DefaultMutableTreeNode("human");
                                node_3.add(new DefaultMutableTreeNode("lossOfMains"));
                                node_3.add(new DefaultMutableTreeNode("residualCurrent"));
                                node_3.add(new DefaultMutableTreeNode("voltage"));
                                node_3.add(new DefaultMutableTreeNode("frequency"));
                            node_2.add(node_3);
                        node_1.add(node_2);
                        node_2 = new DefaultMutableTreeNode("quality");
                            node_2.add(new DefaultMutableTreeNode("harmonics       "));
                            node_2.add(new DefaultMutableTreeNode("flicker"));
                            node_2.add(new DefaultMutableTreeNode("powerFactor"));
                            node_2.add(new DefaultMutableTreeNode("dcEmission"));
                        node_1.add(node_2);
                        node_2 = new DefaultMutableTreeNode("support");
                            node_3 = new DefaultMutableTreeNode("voltage");
                                node_3.add(new DefaultMutableTreeNode("faultRideTrough"));
                            node_2.add(node_3);
                            node_2.add(new DefaultMutableTreeNode("frequency"));
                            node_2.add(new DefaultMutableTreeNode("reactivePower"));
                        node_1.add(node_2);
                        node_2 = new DefaultMutableTreeNode("fault");
                            node_2.add(new DefaultMutableTreeNode("shortCircuit"));
                        node_1.add(node_2);
                        node_1.add(new DefaultMutableTreeNode("all"));
                    add(node_1);
                    node_1 = new DefaultMutableTreeNode("Billund");
                        node_2 = new DefaultMutableTreeNode("protection");
                            node_3 = new DefaultMutableTreeNode("grid");
                                node_4 = new DefaultMutableTreeNode("plant");
                                    node_5 = new DefaultMutableTreeNode("disconnection");
                                        node_5.add(new DefaultMutableTreeNode("voltage"));
                                        node_5.add(new DefaultMutableTreeNode("frequency"));
                                        node_5.add(new DefaultMutableTreeNode("current"));
                                    node_4.add(node_5);
                                    node_5 = new DefaultMutableTreeNode("connection");
                                        node_5.add(new DefaultMutableTreeNode("voltage"));
                                        node_5.add(new DefaultMutableTreeNode("frequency"));
                                    node_4.add(node_5);
                                    node_5 = new DefaultMutableTreeNode("reconnection");
                                        node_6 = new DefaultMutableTreeNode("longInterrupt");
                                            node_6.add(new DefaultMutableTreeNode("voltage"));
                                            node_6.add(new DefaultMutableTreeNode("frequency"));
                                        node_5.add(node_6);
                                        node_6 = new DefaultMutableTreeNode("shortInterrupt");
                                            node_6.add(new DefaultMutableTreeNode("voltage"));
                                            node_6.add(new DefaultMutableTreeNode("frequency"));
                                        node_5.add(node_6);
                                    node_4.add(node_5);
                                node_3.add(node_4);
                                node_4 = new DefaultMutableTreeNode("unit");
                                    node_5 = new DefaultMutableTreeNode("disconnection");
                                        node_5.add(new DefaultMutableTreeNode("voltage"));
                                        node_5.add(new DefaultMutableTreeNode("frequency"));
                                        node_5.add(new DefaultMutableTreeNode("LOM"));
                                        node_5.add(new DefaultMutableTreeNode("current"));
                                        node_5.add(new DefaultMutableTreeNode("dcImmunity"));
                                    node_4.add(node_5);
                                    node_5 = new DefaultMutableTreeNode("stability");
                                        node_5.add(new DefaultMutableTreeNode("voltage"));
                                        node_5.add(new DefaultMutableTreeNode("frequency"));
                                        node_5.add(new DefaultMutableTreeNode("current"));
                                    node_4.add(node_5);
                                    node_5 = new DefaultMutableTreeNode("connection");
                                        node_5.add(new DefaultMutableTreeNode("voltage"));
                                        node_5.add(new DefaultMutableTreeNode("frequency"));
                                    node_4.add(node_5);
                                    node_5 = new DefaultMutableTreeNode("reconnection");
                                        node_6 = new DefaultMutableTreeNode("longInterrupt");
                                            node_6.add(new DefaultMutableTreeNode("voltage"));
                                            node_6.add(new DefaultMutableTreeNode("frequency"));
                                        node_5.add(node_6);
                                        node_6 = new DefaultMutableTreeNode("shortInterrupt");
                                            node_6.add(new DefaultMutableTreeNode("voltage"));
                                            node_6.add(new DefaultMutableTreeNode("frequency"));
                                        node_5.add(node_6);
                                    node_4.add(node_5);
                                node_3.add(node_4);
                            node_2.add(node_3);
                            node_3 = new DefaultMutableTreeNode("generator");
                                node_3.add(new DefaultMutableTreeNode("photovoltaic"));
                            node_2.add(node_3);
                            node_3 = new DefaultMutableTreeNode("human");
                                node_3.add(new DefaultMutableTreeNode("lossOfMains"));
                                node_3.add(new DefaultMutableTreeNode("residualCurrent"));
                                node_3.add(new DefaultMutableTreeNode("voltage"));
                                node_3.add(new DefaultMutableTreeNode("frequency"));
                            node_2.add(node_3);
                        node_1.add(node_2);
                        node_2 = new DefaultMutableTreeNode("quality");
                            node_2.add(new DefaultMutableTreeNode("harmonics       "));
                            node_2.add(new DefaultMutableTreeNode("flicker"));
                            node_2.add(new DefaultMutableTreeNode("powerFactor"));
                            node_2.add(new DefaultMutableTreeNode("dcEmission"));
                        node_1.add(node_2);
                        node_2 = new DefaultMutableTreeNode("support");
                            node_3 = new DefaultMutableTreeNode("voltage");
                                node_3.add(new DefaultMutableTreeNode("faultRideTrough"));
                            node_2.add(node_3);
                            node_2.add(new DefaultMutableTreeNode("frequency"));
                            node_2.add(new DefaultMutableTreeNode("reactivePower"));
                        node_1.add(node_2);
                        node_2 = new DefaultMutableTreeNode("fault");
                            node_2.add(new DefaultMutableTreeNode("shortCircuit"));
                        node_1.add(node_2);
                        node_1.add(new DefaultMutableTreeNode("all"));
                    add(node_1);
                    node_1 = new DefaultMutableTreeNode("Christiansfeld");
                        node_2 = new DefaultMutableTreeNode("protection");
                            node_3 = new DefaultMutableTreeNode("grid");
                                node_4 = new DefaultMutableTreeNode("plant");
                                    node_5 = new DefaultMutableTreeNode("disconnection");
                                        node_5.add(new DefaultMutableTreeNode("voltage"));
                                        node_5.add(new DefaultMutableTreeNode("frequency"));
                                        node_5.add(new DefaultMutableTreeNode("current"));
                                    node_4.add(node_5);
                                    node_5 = new DefaultMutableTreeNode("connection");
                                        node_5.add(new DefaultMutableTreeNode("voltage"));
                                        node_5.add(new DefaultMutableTreeNode("frequency"));
                                    node_4.add(node_5);
                                    node_5 = new DefaultMutableTreeNode("reconnection");
                                        node_6 = new DefaultMutableTreeNode("longInterrupt");
                                            node_6.add(new DefaultMutableTreeNode("voltage"));
                                            node_6.add(new DefaultMutableTreeNode("frequency"));
                                        node_5.add(node_6);
                                        node_6 = new DefaultMutableTreeNode("shortInterrupt");
                                            node_6.add(new DefaultMutableTreeNode("voltage"));
                                            node_6.add(new DefaultMutableTreeNode("frequency"));
                                        node_5.add(node_6);
                                    node_4.add(node_5);
                                node_3.add(node_4);
                                node_4 = new DefaultMutableTreeNode("unit");
                                    node_5 = new DefaultMutableTreeNode("disconnection");
                                        node_5.add(new DefaultMutableTreeNode("voltage"));
                                        node_5.add(new DefaultMutableTreeNode("frequency"));
                                        node_5.add(new DefaultMutableTreeNode("LOM"));
                                        node_5.add(new DefaultMutableTreeNode("current"));
                                        node_5.add(new DefaultMutableTreeNode("dcImmunity"));
                                    node_4.add(node_5);
                                    node_5 = new DefaultMutableTreeNode("stability");
                                        node_5.add(new DefaultMutableTreeNode("voltage"));
                                        node_5.add(new DefaultMutableTreeNode("frequency"));
                                        node_5.add(new DefaultMutableTreeNode("current"));
                                    node_4.add(node_5);
                                    node_5 = new DefaultMutableTreeNode("connection");
                                        node_5.add(new DefaultMutableTreeNode("voltage"));
                                        node_5.add(new DefaultMutableTreeNode("frequency"));
                                    node_4.add(node_5);
                                    node_5 = new DefaultMutableTreeNode("reconnection");
                                        node_6 = new DefaultMutableTreeNode("longInterrupt");
                                            node_6.add(new DefaultMutableTreeNode("voltage"));
                                            node_6.add(new DefaultMutableTreeNode("frequency"));
                                        node_5.add(node_6);
                                        node_6 = new DefaultMutableTreeNode("shortInterrupt");
                                            node_6.add(new DefaultMutableTreeNode("voltage"));
                                            node_6.add(new DefaultMutableTreeNode("frequency"));
                                        node_5.add(node_6);
                                    node_4.add(node_5);
                                node_3.add(node_4);
                            node_2.add(node_3);
                            node_3 = new DefaultMutableTreeNode("generator");
                                node_3.add(new DefaultMutableTreeNode("photovoltaic"));
                            node_2.add(node_3);
                            node_3 = new DefaultMutableTreeNode("human");
                                node_3.add(new DefaultMutableTreeNode("lossOfMains"));
                                node_3.add(new DefaultMutableTreeNode("residualCurrent"));
                                node_3.add(new DefaultMutableTreeNode("voltage"));
                                node_3.add(new DefaultMutableTreeNode("frequency"));
                            node_2.add(node_3);
                        node_1.add(node_2);
                        node_2 = new DefaultMutableTreeNode("quality");
                            node_2.add(new DefaultMutableTreeNode("harmonics       "));
                            node_2.add(new DefaultMutableTreeNode("flicker"));
                            node_2.add(new DefaultMutableTreeNode("powerFactor"));
                            node_2.add(new DefaultMutableTreeNode("dcEmission"));
                        node_1.add(node_2);
                        node_2 = new DefaultMutableTreeNode("support");
                            node_3 = new DefaultMutableTreeNode("voltage");
                                node_3.add(new DefaultMutableTreeNode("faultRideTrough"));
                            node_2.add(node_3);
                            node_2.add(new DefaultMutableTreeNode("frequency"));
                            node_2.add(new DefaultMutableTreeNode("reactivePower"));
                        node_1.add(node_2);
                        node_2 = new DefaultMutableTreeNode("fault");
                            node_2.add(new DefaultMutableTreeNode("shortCircuit"));
                        node_1.add(node_2);
                        node_1.add(new DefaultMutableTreeNode("all"));
                    add(node_1);
                    node_1 = new DefaultMutableTreeNode("Daugaard");
                        node_2 = new DefaultMutableTreeNode("protection");
                            node_3 = new DefaultMutableTreeNode("grid");
                                node_4 = new DefaultMutableTreeNode("plant");
                                    node_5 = new DefaultMutableTreeNode("disconnection");
                                        node_5.add(new DefaultMutableTreeNode("voltage"));
                                        node_5.add(new DefaultMutableTreeNode("frequency"));
                                        node_5.add(new DefaultMutableTreeNode("current"));
                                    node_4.add(node_5);
                                    node_5 = new DefaultMutableTreeNode("connection");
                                        node_5.add(new DefaultMutableTreeNode("voltage"));
                                        node_5.add(new DefaultMutableTreeNode("frequency"));
                                    node_4.add(node_5);
                                    node_5 = new DefaultMutableTreeNode("reconnection");
                                        node_6 = new DefaultMutableTreeNode("longInterrupt");
                                            node_6.add(new DefaultMutableTreeNode("voltage"));
                                            node_6.add(new DefaultMutableTreeNode("frequency"));
                                        node_5.add(node_6);
                                        node_6 = new DefaultMutableTreeNode("shortInterrupt");
                                            node_6.add(new DefaultMutableTreeNode("voltage"));
                                            node_6.add(new DefaultMutableTreeNode("frequency"));
                                        node_5.add(node_6);
                                    node_4.add(node_5);
                                node_3.add(node_4);
                                node_4 = new DefaultMutableTreeNode("unit");
                                    node_5 = new DefaultMutableTreeNode("disconnection");
                                        node_5.add(new DefaultMutableTreeNode("voltage"));
                                        node_5.add(new DefaultMutableTreeNode("frequency"));
                                        node_5.add(new DefaultMutableTreeNode("LOM"));
                                        node_5.add(new DefaultMutableTreeNode("current"));
                                        node_5.add(new DefaultMutableTreeNode("dcImmunity"));
                                    node_4.add(node_5);
                                    node_5 = new DefaultMutableTreeNode("stability");
                                        node_5.add(new DefaultMutableTreeNode("voltage"));
                                        node_5.add(new DefaultMutableTreeNode("frequency"));
                                        node_5.add(new DefaultMutableTreeNode("current"));
                                    node_4.add(node_5);
                                    node_5 = new DefaultMutableTreeNode("connection");
                                        node_5.add(new DefaultMutableTreeNode("voltage"));
                                        node_5.add(new DefaultMutableTreeNode("frequency"));
                                    node_4.add(node_5);
                                    node_5 = new DefaultMutableTreeNode("reconnection");
                                        node_6 = new DefaultMutableTreeNode("longInterrupt");
                                            node_6.add(new DefaultMutableTreeNode("voltage"));
                                            node_6.add(new DefaultMutableTreeNode("frequency"));
                                        node_5.add(node_6);
                                        node_6 = new DefaultMutableTreeNode("shortInterrupt");
                                            node_6.add(new DefaultMutableTreeNode("voltage"));
                                            node_6.add(new DefaultMutableTreeNode("frequency"));
                                        node_5.add(node_6);
                                    node_4.add(node_5);
                                node_3.add(node_4);
                            node_2.add(node_3);
                            node_3 = new DefaultMutableTreeNode("generator");
                                node_3.add(new DefaultMutableTreeNode("photovoltaic"));
                            node_2.add(node_3);
                            node_3 = new DefaultMutableTreeNode("human");
                                node_3.add(new DefaultMutableTreeNode("lossOfMains"));
                                node_3.add(new DefaultMutableTreeNode("residualCurrent"));
                                node_3.add(new DefaultMutableTreeNode("voltage"));
                                node_3.add(new DefaultMutableTreeNode("frequency"));
                            node_2.add(node_3);
                        node_1.add(node_2);
                        node_2 = new DefaultMutableTreeNode("quality");
                            node_2.add(new DefaultMutableTreeNode("harmonics       "));
                            node_2.add(new DefaultMutableTreeNode("flicker"));
                            node_2.add(new DefaultMutableTreeNode("powerFactor"));
                            node_2.add(new DefaultMutableTreeNode("dcEmission"));
                        node_1.add(node_2);
                        node_2 = new DefaultMutableTreeNode("support");
                            node_3 = new DefaultMutableTreeNode("voltage");
                                node_3.add(new DefaultMutableTreeNode("faultRideTrough"));
                            node_2.add(node_3);
                            node_2.add(new DefaultMutableTreeNode("frequency"));
                            node_2.add(new DefaultMutableTreeNode("reactivePower"));
                        node_1.add(node_2);
                        node_2 = new DefaultMutableTreeNode("fault");
                            node_2.add(new DefaultMutableTreeNode("shortCircuit"));
                        node_1.add(node_2);
                        node_1.add(new DefaultMutableTreeNode("all"));
                    add(node_1);
                    node_1 = new DefaultMutableTreeNode("Esbjerg");
                        node_2 = new DefaultMutableTreeNode("protection");
                            node_3 = new DefaultMutableTreeNode("grid");
                                node_4 = new DefaultMutableTreeNode("plant");
                                    node_5 = new DefaultMutableTreeNode("disconnection");
                                        node_5.add(new DefaultMutableTreeNode("voltage"));
                                        node_5.add(new DefaultMutableTreeNode("frequency"));
                                        node_5.add(new DefaultMutableTreeNode("current"));
                                    node_4.add(node_5);
                                    node_5 = new DefaultMutableTreeNode("connection");
                                        node_5.add(new DefaultMutableTreeNode("voltage"));
                                        node_5.add(new DefaultMutableTreeNode("frequency"));
                                    node_4.add(node_5);
                                    node_5 = new DefaultMutableTreeNode("reconnection");
                                        node_6 = new DefaultMutableTreeNode("longInterrupt");
                                            node_6.add(new DefaultMutableTreeNode("voltage"));
                                            node_6.add(new DefaultMutableTreeNode("frequency"));
                                        node_5.add(node_6);
                                        node_6 = new DefaultMutableTreeNode("shortInterrupt");
                                            node_6.add(new DefaultMutableTreeNode("voltage"));
                                            node_6.add(new DefaultMutableTreeNode("frequency"));
                                        node_5.add(node_6);
                                    node_4.add(node_5);
                                node_3.add(node_4);
                                node_4 = new DefaultMutableTreeNode("unit");
                                    node_5 = new DefaultMutableTreeNode("disconnection");
                                        node_5.add(new DefaultMutableTreeNode("voltage"));
                                        node_5.add(new DefaultMutableTreeNode("frequency"));
                                        node_5.add(new DefaultMutableTreeNode("LOM"));
                                        node_5.add(new DefaultMutableTreeNode("current"));
                                        node_5.add(new DefaultMutableTreeNode("dcImmunity"));
                                    node_4.add(node_5);
                                    node_5 = new DefaultMutableTreeNode("stability");
                                        node_5.add(new DefaultMutableTreeNode("voltage"));
                                        node_5.add(new DefaultMutableTreeNode("frequency"));
                                        node_5.add(new DefaultMutableTreeNode("current"));
                                    node_4.add(node_5);
                                    node_5 = new DefaultMutableTreeNode("connection");
                                        node_5.add(new DefaultMutableTreeNode("voltage"));
                                        node_5.add(new DefaultMutableTreeNode("frequency"));
                                    node_4.add(node_5);
                                    node_5 = new DefaultMutableTreeNode("reconnection");
                                        node_6 = new DefaultMutableTreeNode("longInterrupt");
                                            node_6.add(new DefaultMutableTreeNode("voltage"));
                                            node_6.add(new DefaultMutableTreeNode("frequency"));
                                        node_5.add(node_6);
                                        node_6 = new DefaultMutableTreeNode("shortInterrupt");
                                            node_6.add(new DefaultMutableTreeNode("voltage"));
                                            node_6.add(new DefaultMutableTreeNode("frequency"));
                                        node_5.add(node_6);
                                    node_4.add(node_5);
                                node_3.add(node_4);
                            node_2.add(node_3);
                            node_3 = new DefaultMutableTreeNode("generator");
                                node_3.add(new DefaultMutableTreeNode("photovoltaic"));
                            node_2.add(node_3);
                            node_3 = new DefaultMutableTreeNode("human");
                                node_3.add(new DefaultMutableTreeNode("lossOfMains"));
                                node_3.add(new DefaultMutableTreeNode("residualCurrent"));
                                node_3.add(new DefaultMutableTreeNode("voltage"));
                                node_3.add(new DefaultMutableTreeNode("frequency"));
                            node_2.add(node_3);
                        node_1.add(node_2);
                        node_2 = new DefaultMutableTreeNode("quality");
                            node_2.add(new DefaultMutableTreeNode("harmonics       "));
                            node_2.add(new DefaultMutableTreeNode("flicker"));
                            node_2.add(new DefaultMutableTreeNode("powerFactor"));
                            node_2.add(new DefaultMutableTreeNode("dcEmission"));
                        node_1.add(node_2);
                        node_2 = new DefaultMutableTreeNode("support");
                            node_3 = new DefaultMutableTreeNode("voltage");
                                node_3.add(new DefaultMutableTreeNode("faultRideTrough"));
                            node_2.add(node_3);
                            node_2.add(new DefaultMutableTreeNode("frequency"));
                            node_2.add(new DefaultMutableTreeNode("reactivePower"));
                        node_1.add(node_2);
                        node_2 = new DefaultMutableTreeNode("fault");
                            node_2.add(new DefaultMutableTreeNode("shortCircuit"));
                        node_1.add(node_2);
                        node_1.add(new DefaultMutableTreeNode("all"));
                    add(node_1);
                }
            }
        ));
        tree.setShowsRootHandles(true);
        tree.setBounds(174, 32, 301, 420);
        getContentPane().add(tree);
    }
}
share|improve this question

1 Answer 1

up vote 1 down vote accepted

your code

enter image description here

.

.

with JCheckBox (uncoment)

enter image description here

import java.awt.*;
import java.awt.event.*;
import java.util.*;

import javax.swing.*;
import javax.swing.event.ChangeEvent;
import javax.swing.tree.*;


public class CheckBoxNodeTreeSample {

    public CheckBoxNodeTreeSample() {
        JFrame frame = new JFrame("CheckBox Tree");
        //setLookAndFeel();
        JTree tree = new JTree();
        tree.setVisibleRowCount(50);

        tree.setRootVisible(false);
        tree.setModel(new DefaultTreeModel(
            new DefaultMutableTreeNode("test") {
                private static final long serialVersionUID = 1L;

                {
                  DefaultMutableTreeNode node_1;
                    DefaultMutableTreeNode node_2;
                    DefaultMutableTreeNode node_3;
                    DefaultMutableTreeNode node_4;
                    DefaultMutableTreeNode node_5;
                    DefaultMutableTreeNode node_6;
                   node_1 = new DefaultMutableTreeNode("Aarhus");
                        node_2 = new DefaultMutableTreeNode("protection");
                            node_3 = new DefaultMutableTreeNode("grid");
                                node_4 = new DefaultMutableTreeNode("plant");
                                    node_5 = new DefaultMutableTreeNode("disconnection");
                                        node_5.add(new DefaultMutableTreeNode("voltage"));
                                        node_5.add(new DefaultMutableTreeNode("frequency"));
                                        node_5.add(new DefaultMutableTreeNode("current"));
                                    node_4.add(node_5);
                                    node_5 = new DefaultMutableTreeNode("connection");
                                        node_5.add(new DefaultMutableTreeNode("voltage"));
                                        node_5.add(new DefaultMutableTreeNode("frequency"));
                                    node_4.add(node_5);
                                    node_5 = new DefaultMutableTreeNode("reconnection");
                                        node_6 = new DefaultMutableTreeNode("longInterrupt");
                                            node_6.add(new DefaultMutableTreeNode("voltage"));
                                            node_6.add(new DefaultMutableTreeNode("frequency"));
                                        node_5.add(node_6);
                                        node_6 = new DefaultMutableTreeNode("shortInterrupt");
                                            node_6.add(new DefaultMutableTreeNode("voltage"));
                                            node_6.add(new DefaultMutableTreeNode("frequency"));
                                        node_5.add(node_6);
                                    node_4.add(node_5);
                                node_3.add(node_4);
                                node_4 = new DefaultMutableTreeNode("unit");
                                    node_5 = new DefaultMutableTreeNode("disconnection");
                                        node_5.add(new DefaultMutableTreeNode("voltage"));
                                        node_5.add(new DefaultMutableTreeNode("frequency"));
                                        node_5.add(new DefaultMutableTreeNode("LOM"));
                                        node_5.add(new DefaultMutableTreeNode("current"));
                                        node_5.add(new DefaultMutableTreeNode("dcImmunity"));
                                    node_4.add(node_5);
                                    node_5 = new DefaultMutableTreeNode("stability");
                                        node_5.add(new DefaultMutableTreeNode("voltage"));
                                        node_5.add(new DefaultMutableTreeNode("frequency"));
                                        node_5.add(new DefaultMutableTreeNode("current"));
                                    node_4.add(node_5);
                                    node_5 = new DefaultMutableTreeNode("connection");
                                        node_5.add(new DefaultMutableTreeNode("voltage"));
                                        node_5.add(new DefaultMutableTreeNode("frequency"));
                                    node_4.add(node_5);
                                    node_5 = new DefaultMutableTreeNode("reconnection");
                                        node_6 = new DefaultMutableTreeNode("longInterrupt");
                                            node_6.add(new DefaultMutableTreeNode("voltage"));
                                            node_6.add(new DefaultMutableTreeNode("frequency"));
                                        node_5.add(node_6);
                                        node_6 = new DefaultMutableTreeNode("shortInterrupt");
                                            node_6.add(new DefaultMutableTreeNode("voltage"));
                                            node_6.add(new DefaultMutableTreeNode("frequency"));
                                        node_5.add(node_6);
                                   node_4.add(node_5);
                                node_3.add(node_4);
 //removed overloaded limit 30k chars 
                         }
        }
    ));

        tree.setShowsRootHandles(true);
// original code      
        /*CheckBoxNode accessibilityOptions[] = {new CheckBoxNode(
            "Move system caret with focus/selection changes", false),
            new CheckBoxNode("Always expand alt text for images", true)};
        CheckBoxNode browsingOptions[] = {
            new CheckBoxNode("Notify when downloads complete", true),
            new CheckBoxNode("Disable script debugging", true),
            new CheckBoxNode("Use AutoComplete", true),
            new CheckBoxNode("Browse in a new process", false)};
        Vector<Object> accessVector = new NamedVector("Accessibility", accessibilityOptions);
        Vector<Object> browseVector = new NamedVector("Browsing", browsingOptions);
        Object rootNodes[] = {accessVector, browseVector};
        Vector<Object> rootVector = new NamedVector("Root", rootNodes);
        tree = new JTree(rootVector);
        CheckBoxNodeRenderer renderer = new CheckBoxNodeRenderer();
        tree.setCellRenderer(renderer);
        tree.setCellEditor(new CheckBoxNodeEditor(tree));
        tree.setEditable(true);*/
//        
        JScrollPane scrollPane = new JScrollPane(tree);
        frame.setDefaultCloseOperation(JFrame.EXIT_ON_CLOSE);
        frame.add(scrollPane, BorderLayout.CENTER);
        frame.setSize(300, 150);
        frame.setVisible(true);
    }

    public static void main(String args[]) {
         EventQueue.invokeLater(new Runnable() {

            @Override
            public void run() {
                new CheckBoxNodeTreeSample();
            }
        });
    }
}

class CheckBoxNodeRenderer implements TreeCellRenderer {

    private JCheckBox leafRenderer = new JCheckBox();
    private DefaultTreeCellRenderer nonLeafRenderer = new DefaultTreeCellRenderer();
    private Color selectionBorderColor, selectionForeground, selectionBackground,
            textForeground, textBackground;

    protected JCheckBox getLeafRenderer() {
        return leafRenderer;
    }

    public CheckBoxNodeRenderer() {
        Font fontValue;
        fontValue = UIManager.getFont("Tree.font");
        if (fontValue != null) {
            leafRenderer.setFont(fontValue);
        }
        Boolean booleanValue = (Boolean) UIManager.get("Tree.drawsFocusBorderAroundIcon");
        leafRenderer.setFocusPainted((booleanValue != null) && (booleanValue.booleanValue()));
        selectionBorderColor = UIManager.getColor("Tree.selectionBorderColor");
        selectionForeground = UIManager.getColor("Tree.selectionForeground");
        selectionBackground = UIManager.getColor("Tree.selectionBackground");
        textForeground = UIManager.getColor("Tree.textForeground");
        textBackground = UIManager.getColor("Tree.textBackground");
    }

    @Override
    public Component getTreeCellRendererComponent(JTree tree, Object value,
            boolean selected, boolean expanded, boolean leaf, int row, boolean hasFocus) {

        Component returnValue;
        if (leaf) {
            String stringValue = tree.convertValueToText(value, selected, expanded, leaf, row, false);
            leafRenderer.setText(stringValue);
            leafRenderer.setSelected(false);
            leafRenderer.setEnabled(tree.isEnabled());
            if (selected) {
                leafRenderer.setForeground(selectionForeground);
                leafRenderer.setBackground(selectionBackground);
            } else {
                leafRenderer.setForeground(textForeground);
                leafRenderer.setBackground(textBackground);
            }
            if ((value != null) && (value instanceof DefaultMutableTreeNode)) {
                Object userObject = ((DefaultMutableTreeNode) value).getUserObject();
                if (userObject instanceof CheckBoxNode) {
                    CheckBoxNode node = (CheckBoxNode) userObject;
                    leafRenderer.setText(node.getText());
                    leafRenderer.setSelected(node.isSelected());
                }
            }
            returnValue = leafRenderer;
        } else {
            returnValue = nonLeafRenderer.getTreeCellRendererComponent(tree,
                    value, selected, expanded, leaf, row, hasFocus);
        }
        return returnValue;
    }
}

class CheckBoxNodeEditor extends AbstractCellEditor implements TreeCellEditor {

    private static final long serialVersionUID = 1L;
    private CheckBoxNodeRenderer renderer = new CheckBoxNodeRenderer();
    private ChangeEvent changeEvent1 = null;
    private JTree tree;

    public CheckBoxNodeEditor(JTree tree) {
        this.tree = tree;
    }

    @Override
    public Object getCellEditorValue() {
        JCheckBox checkbox = renderer.getLeafRenderer();
        CheckBoxNode checkBoxNode = new CheckBoxNode(checkbox.getText(),
                checkbox.isSelected());
        return checkBoxNode;
    }

    @Override
    public boolean isCellEditable(EventObject event) {
        boolean returnValue = false;
        if (event instanceof MouseEvent) {
            MouseEvent mouseEvent = (MouseEvent) event;
            TreePath path = tree.getPathForLocation(mouseEvent.getX(),
                    mouseEvent.getY());
            if (path != null) {
                Object node = path.getLastPathComponent();
                if ((node != null) && (node instanceof DefaultMutableTreeNode)) {
                    DefaultMutableTreeNode treeNode = (DefaultMutableTreeNode) node;
                    Object userObject = treeNode.getUserObject();
                    returnValue = ((treeNode.isLeaf()) && (userObject instanceof CheckBoxNode));
                }
            }
        }
        return returnValue;
    }

    @Override
    public Component getTreeCellEditorComponent(JTree tree, Object value,
            boolean selected, boolean expanded, boolean leaf, int row) {

        Component editor = renderer.getTreeCellRendererComponent(tree, value, true, expanded, leaf, row, true);
        ItemListener itemListener = new ItemListener() {// editor always selected / focused
            @Override
            public void itemStateChanged(ItemEvent itemEvent) {
                if (stopCellEditing()) {
                    fireEditingStopped();
                }
            }
        };
        if (editor instanceof JCheckBox) {
            ((JCheckBox) editor).addItemListener(itemListener);
        }
        return editor;
    }
}

class CheckBoxNode {

    private String text;
    private boolean selected;

    public CheckBoxNode(String text, boolean selected) {
        this.text = text;
        this.selected = selected;
    }

    public boolean isSelected() {
        return selected;
    }

    public void setSelected(boolean newValue) {
        selected = newValue;
    }

    public String getText() {
        return text;
    }

    public void setText(String newValue) {
        text = newValue;
    }

    @Override
    public String toString() {
        return getClass().getName() + "[" + text + "/" + selected + "]";
    }
}

class NamedVector extends Vector<Object> {

    private static final long serialVersionUID = 1L;
    private String name;

    public NamedVector(String name) {
        this.name = name;
    }

    public NamedVector(String name, Object elements[]) {
        this.name = name;
        for (int i = 0, n = elements.length; i < n; i++) {
            add(elements[i]);
        }
    }

    @Override
    public String toString() {
        return "[" + name + "]";
    }
}
share|improve this answer
    
cool, unfortunately I can not load "import org.pushingpixels.substance.api.skin.SubstanceOfficeSilver2007LookAndFeel;" –  abbisDK Aug 13 '13 at 7:43
    
remove this code line has nothing to do with that, forgot to clean up import, btw this is one the best of Custom Look and Feel for Java6 everything looks like as miracles –  mKorbel Aug 13 '13 at 7:48
    
hmm I got the example to compile however I am not getting the desired result, judt getting a blank jframe –  abbisDK Aug 14 '13 at 6:48

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