package view.panels;
import javax.swing.*;
import javax.swing.border.TitledBorder;
import java.awt.*;
import java.util.List;
/**
* Implementierung verschiedener Algorithmen zur Berechnung von Ausgleichsgeraden.
*
* @Author: Armin Wolf
* @Email: a_wolf28@uni-muenster.de
* @Date: 02.06.2017.
*/
public class InfoPanel extends JPanel {
private JTextPane output;
private JScrollPane scrollPane;
private StringBuilder content;
public InfoPanel() {
this.setBorder(new TitledBorder("Ausgabekanal"));
this.setLayout(new BorderLayout());
output = new JTextPane();
output.setEditable(false);
output.setContentType("text/html");
content = new StringBuilder();
scrollPane = new JScrollPane(output);
scrollPane.setWheelScrollingEnabled(true);
this.add(scrollPane, BorderLayout.CENTER);
}
public void appendParagraph(String p) {
content.append("" + p + "
");
output.setText(content.toString());
}
public void appendParagraphWithHeading(String h1) {
content.append("" + h1 + "
");
output.setText(content.toString());
}
public void appendParagraphRed(String p) {
content.append("" + p + "
");
output.setText(content.toString());
}
public void appendParagraphGreen(String p) {
content.append("" + p + "
");
output.setText(content.toString());
}
public void logTable(List heading, List> rows) {
content.append("");
content.append("");
content.append("");
if (heading.size() > 1) {
for (String str : heading) {
content.append("| " + str + " | ");
}
} else {
content.append("" + heading.get(0) + " | ");
}
content.append("
");
for (List row : rows) {
content.append("");
for (String entry : row) {
content.append("| " + entry + " | ");
}
content.append("
");
}
content.append("
");
content.append("");
output.setText(content.toString());
}
}