/**
* Render the View to the given graphic context. This implementation render the interior first,
* then the outline.
*/
public void paint(Graphics2D g, Rectangle2D a) {
if (!a.intersects(getBounds())) return;
if (image != null) { // paint bitmap
g.drawImage(image, text2ModelTr, null);
// debug:
g.setPaint(Color.red);
g.draw(this.bounds);
super.paint(g, a); // possibly paint framebox if non-null
} else { // paint textlayout
super.paint(g, a); // possibly paint framebox if non-null
AffineTransform oldAT = g.getTransform();
// paint text in black
g.setPaint(Color.black);
// from now on, we work in Y-direct (<0) coordinates to avoid inextricable problems with font
// being mirrored...
g.transform(text2ModelTr); // also include rotation
textLayout.draw(g, 0.0f, 0.0f);
// [pending] ajouter un cadre si areDimensionsComputed (wysiwyg du pauvre)
// get back to previous transform
g.setTransform(oldAT);
if (DEBUG) {
g.setPaint(Color.red);
g.draw(bounds);
}
}
}
public void paintBoard(Graphics2D g2) {
double gbwidth = boardGridSize * 8d + lineLoc, gbheight = boardGridSize * 9d + lineLoc;
g2.setPaint(red);
g2.draw3DRect((int) lineLoc / 2, (int) lineLoc / 2, (int) gbwidth, (int) gbheight, true);
g2.draw3DRect(
(int) lineLoc / 2 + 3, (int) lineLoc / 2 + 3, (int) gbwidth - 6, (int) gbheight - 7, false);
g2.setPaint(fg);
for (int i = 0; i < 10; i++) {
g2.draw(
new Line2D.Double(
lineLoc,
lineLoc + boardGridSize * i,
lineLoc + boardGridSize * 8,
lineLoc + boardGridSize * i));
}
for (int i = 0; i < 9; i++) {
g2.draw(
new Line2D.Double(
lineLoc + boardGridSize * i,
lineLoc,
lineLoc + boardGridSize * i,
lineLoc + boardGridSize * 4));
if (i == 0 || i == 8)
g2.draw(
new Line2D.Double(
lineLoc + boardGridSize * i,
lineLoc + boardGridSize * 4,
lineLoc + boardGridSize * i,
lineLoc + boardGridSize * 9));
else
g2.draw(
new Line2D.Double(
lineLoc + boardGridSize * i,
lineLoc + boardGridSize * 5,
lineLoc + boardGridSize * i,
lineLoc + boardGridSize * 9));
}
drawX(lineLoc + boardGridSize * 4, lineLoc + boardGridSize, g2);
drawX(lineLoc + boardGridSize * 4, lineLoc + boardGridSize * 8, g2);
// black Pao
drawLocation(lineLoc + boardGridSize, lineLoc + boardGridSize * 2, center, g2);
drawLocation(lineLoc + boardGridSize * 7, lineLoc + boardGridSize * 2, center, g2);
// red Pao
drawLocation(lineLoc + boardGridSize, lineLoc + boardGridSize * 7, center, g2);
drawLocation(lineLoc + boardGridSize * 7, lineLoc + boardGridSize * 7, center, g2);
// black Zu
drawLocation(lineLoc, lineLoc + boardGridSize * 3, right, g2);
drawLocation(lineLoc + boardGridSize * 2, lineLoc + boardGridSize * 3, center, g2);
drawLocation(lineLoc + boardGridSize * 4, lineLoc + boardGridSize * 3, center, g2);
drawLocation(lineLoc + boardGridSize * 6, lineLoc + boardGridSize * 3, center, g2);
drawLocation(lineLoc + boardGridSize * 8, lineLoc + boardGridSize * 3, left, g2);
// red bin
drawLocation(lineLoc, lineLoc + boardGridSize * 6, right, g2);
drawLocation(lineLoc + boardGridSize * 2, lineLoc + boardGridSize * 6, center, g2);
drawLocation(lineLoc + boardGridSize * 4, lineLoc + boardGridSize * 6, center, g2);
drawLocation(lineLoc + boardGridSize * 6, lineLoc + boardGridSize * 6, center, g2);
drawLocation(lineLoc + boardGridSize * 8, lineLoc + boardGridSize * 6, left, g2);
// ----------------------------------------------------------------------
}
public void paintComponent(Graphics g) {
super.paintComponent(g);
Graphics2D g2 = (Graphics2D) g;
currentX = leftMargin;
currentY = topMargin;
// Draw the links
for (int i = 0; i < linkLines.length; i++) {
if (weights[i].isActive()) {
g2.setPaint(weights[i].getColor());
g2.draw(linkLines[i]);
}
}
g2.setPaint(Color.black);
// Draw the input neurons
g2.drawString("Inputs", (float) currentX, (float) currentY);
currentY += titleSpace;
for (int i = 0; i < genome.getInputs(); i++) {
g2.drawImage(inputNeuron, (int) currentX, (int) currentY, null);
currentY += space;
}
// Draw the hidden Neurons
currentX += space;
currentY = topMargin;
g2.drawString("Hidden Layers", (float) currentX, (float) currentY);
for (int i = 0; i < genome.getHiddenLayers(); i++) {
currentY = topMargin + titleSpace;
for (int j = 0; j < genome.getNeuronsInHiddenLayer(); j++) {
g2.drawImage(hiddenNeuron, (int) currentX, (int) currentY, null);
currentY += space;
}
currentX += space;
}
// Draw the output neurons
currentY = topMargin;
g2.drawString("Outputs", (float) currentX, (float) currentY);
currentY += titleSpace;
for (int i = 0; i < genome.getOutputs(); i++) {
g2.drawImage(outputNeuron, (int) currentX, (int) currentY, null);
currentY += space;
}
// Draw the links
for (int i = 0; i < linkLines.length; i++) {
if (weights[i].isActive()) {
g2.setPaint(weights[i].getColor());
g2.draw(linkLines[i]);
}
}
}
/** This method is invoked before the rendered image of the figure is composited. */
public void drawFigure(Graphics2D g) {
AffineTransform savedTransform = null;
if (get(TRANSFORM) != null) {
savedTransform = g.getTransform();
g.transform(get(TRANSFORM));
}
if (get(FILL_STYLE) != ODGConstants.FillStyle.NONE) {
Paint paint = ODGAttributeKeys.getFillPaint(this);
if (paint != null) {
g.setPaint(paint);
drawFill(g);
}
}
if (get(STROKE_STYLE) != ODGConstants.StrokeStyle.NONE) {
Paint paint = ODGAttributeKeys.getStrokePaint(this);
if (paint != null) {
g.setPaint(paint);
g.setStroke(ODGAttributeKeys.getStroke(this));
drawStroke(g);
}
}
if (get(TRANSFORM) != null) {
g.setTransform(savedTransform);
}
}
/**
* Paints the icon.
*
* @param c the component on which it is painted
* @param _g the graphics context
* @param x the x coordinate of the icon
* @param y the y coordinate of the icon
*/
public void paintIcon(Component c, Graphics _g, int x, int y) {
Graphics2D g = (Graphics2D) _g;
AffineTransform at = AffineTransform.getTranslateInstance(x + offsetX, y + offsetY);
// save current graphics paint and clip
Paint gPaint = g.getPaint();
Shape gClip = g.getClip();
// render shape(s)
g.setPaint(color);
g.setRenderingHint(RenderingHints.KEY_ANTIALIASING, RenderingHints.VALUE_ANTIALIAS_ON);
g.clipRect(x, y, w, h);
// paint shape, if any
if (shape != null) {
g.fill(at.createTransformedShape(shape));
}
// paint decoration, if any
if (decoration != null) {
g.setPaint(decoColor);
g.fill(at.createTransformedShape(decoration));
}
// restore graphics paint and clip
g.setPaint(gPaint);
g.setClip(gClip);
}
public void paintComponent(Graphics g) {
Graphics2D g2 = (Graphics2D) g;
Rectangle2D rect = new Rectangle2D.Double(0, 0, getWidth() - 1, getHeight() - 1);
g2.setPaint(Color.YELLOW);
g2.fill(rect);
g2.setPaint(Color.BLUE);
g2.draw(rect);
}
public void draw(Graphics2D g2) {
g2.setPaint(selected ? selColor : bgColor);
g2.fill(rect);
// g2.fill(new Rectangle2D.Double(row,col,10,10));
// g2.fill(new Rectangle2D.Double(rect.x,rect.y,rect.height, rect.width));
g2.setPaint(color);
g2.draw(rect);
}
private void paintBackgroundPressedAndDefault(Graphics2D g) {
roundRect = decodeRoundRect1();
g.setPaint(color17);
g.fill(roundRect);
roundRect = decodeRoundRect2();
g.setPaint(decodeGradient4(roundRect));
g.fill(roundRect);
roundRect = decodeRoundRect3();
g.setPaint(decodeGradient2(roundRect));
g.fill(roundRect);
}
private void paintBackgroundDisabled(Graphics2D g) {
roundRect = decodeRoundRect1();
g.setPaint(color25);
g.fill(roundRect);
roundRect = decodeRoundRect2();
g.setPaint(decodeGradient5(roundRect));
g.fill(roundRect);
roundRect = decodeRoundRect3();
g.setPaint(decodeGradient6(roundRect));
g.fill(roundRect);
}
private void paintBackgroundMouseOverAndDefault(Graphics2D g) {
roundRect = decodeRoundRect5();
g.setPaint(color1);
g.fill(roundRect);
roundRect = decodeRoundRect2();
g.setPaint(decodeGradient3(roundRect));
g.fill(roundRect);
roundRect = decodeRoundRect3();
g.setPaint(decodeGradient2(roundRect));
g.fill(roundRect);
}
private void paintBackgroundEnabled(Graphics2D g) {
roundRect = decodeRoundRect1();
g.setPaint(color1);
g.fill(roundRect);
roundRect = decodeRoundRect2();
g.setPaint(decodeGradient7(roundRect));
g.fill(roundRect);
roundRect = decodeRoundRect3();
g.setPaint(decodeGradient2(roundRect));
g.fill(roundRect);
}
private void paintBackgroundMouseOverAndFocused(Graphics2D g) {
roundRect = decodeRoundRect4();
g.setPaint(color9);
g.fill(roundRect);
roundRect = decodeRoundRect2();
g.setPaint(decodeGradient9(roundRect));
g.fill(roundRect);
roundRect = decodeRoundRect3();
g.setPaint(decodeGradient10(roundRect));
g.fill(roundRect);
}
private void paintBackgroundPressedAndFocused(Graphics2D g) {
roundRect = decodeRoundRect4();
g.setPaint(color9);
g.fill(roundRect);
roundRect = decodeRoundRect2();
g.setPaint(decodeGradient11(roundRect));
g.fill(roundRect);
roundRect = decodeRoundRect3();
g.setPaint(decodeGradient2(roundRect));
g.fill(roundRect);
}
protected void paintComponent(Graphics g) {
super.paintComponent(g);
Graphics2D g2 = (Graphics2D) g;
g2.setRenderingHint(RenderingHints.KEY_ANTIALIASING, RenderingHints.VALUE_ANTIALIAS_ON);
int w = getWidth();
int h = getHeight();
double theta, x, y;
g2.setPaint(Color.blue);
double x1 = w * 3 / 24, y1 = h * 3 / 32, x2 = w * 11 / 24, y2 = y1;
g2.draw(new Line2D.Double(x1, y1, x2, y2));
// draw this arrow head at point x2, y2 and measure
// angle theta relative to same point, ie, y2 - and x2 -
theta = Math.atan2(y2 - y1, x2 - x1);
drawArrow(g2, theta, x2, y2);
x1 = w * 3 / 8;
y1 = h * 13 / 15;
x2 = w * 2 / 3;
y2 = y1;
g2.draw(new Line2D.Double(x1, y1, x2, y2));
theta = Math.atan2(y1 - y2, x1 - x2);
drawArrow(g2, theta, x1, y1);
g2.setPaint(Color.red);
x1 = w * 3 / 24;
y1 = h * 4 / 32;
x2 = x1;
y2 = h * 18 / 32;
g2.draw(new Line2D.Double(x1, y1, x2, y2));
theta = Math.atan2(y2 - y1, x2 - x1);
drawArrow(g2, theta, x2, y2);
g2.setPaint(Color.orange);
x1 = w * 5 / 32;
y1 = h * 27 / 32;
x2 = w * 27 / 32;
y2 = h * 5 / 32;
g2.draw(new Line2D.Double(x1, y1, x2, y2));
theta = Math.atan2(y2 - y1, x2 - x1);
drawArrow(g2, theta, x2, y2);
g2.setPaint(Color.green.darker());
x1 = w / 2;
y1 = h / 2;
x2 = w * 27 / 32;
y2 = h * 27 / 32;
g2.draw(new Line2D.Double(x1, y1, x2, y2));
theta = Math.atan2(y2 - y1, x2 - x1);
drawArrow(g2, theta, x2, y2);
}
private void paintBackgroundEnabledAndWindowNotFocusedAndWindowMaximized(Graphics2D g) {
roundRect = decodeRoundRect1();
g.setPaint(decodeGradient10(roundRect));
g.fill(roundRect);
roundRect = decodeRoundRect2();
g.setPaint(decodeGradient11(roundRect));
g.fill(roundRect);
rect = decodeRect1();
g.setPaint(color4);
g.fill(rect);
rect = decodeRect4();
g.setPaint(color54);
g.fill(rect);
rect = decodeRect5();
g.setPaint(color55);
g.fill(rect);
rect = decodeRect8();
g.setPaint(color56);
g.fill(rect);
path = decodePath1();
g.setPaint(color57);
g.fill(path);
path = decodePath2();
g.setPaint(color58);
g.fill(path);
}
protected void paintComponent(Graphics g) {
super.paintComponent(g);
Graphics2D g2 = (Graphics2D) g;
g2.setRenderingHint(RenderingHints.KEY_ANTIALIASING, RenderingHints.VALUE_ANTIALIAS_ON);
int w = getWidth();
int h = getHeight();
// Draw ordinate.
g2.draw(new Line2D.Double(Points, Points, Points, h - Points));
// Draw abcissa.
g2.draw(new Line2D.Double(Points, h - Points, w - Points, h - Points));
// Draw labels.
Font font = g2.getFont();
FontRenderContext frc = g2.getFontRenderContext();
LineMetrics lm = font.getLineMetrics("0", frc);
float sh = lm.getAscent() + lm.getDescent();
// Ordinate label.
String s = "Strecke";
float sy = Points + ((h - 2 * Points) - s.length() * sh) / 2 + lm.getAscent();
for (int i = 0; i < s.length(); i++) {
String letter = String.valueOf(s.charAt(i));
float sw = (float) font.getStringBounds(letter, frc).getWidth();
float sx = (Points - sw) / 2;
g2.drawString(letter, sx, sy);
sy += sh;
}
// Abcissa label.
s = "Datum";
sy = h - Points + (Points - sh) / 2 + lm.getAscent();
float sw = (float) font.getStringBounds(s, frc).getWidth();
float sx = (w - sw) / 2;
g2.drawString(s, sx, sy);
// Draw lines.
double xInc = (double) (w - 2 * Points) / (data.length - 1);
double scale = (double) (h - 2 * Points) / getMax();
g2.setPaint(Color.green.darker());
for (int i = 0; i < data.length - 1; i++) {
double x1 = Points + i * xInc;
double y1 = h - Points - scale * data[i];
double x2 = Points + (i + 1) * xInc;
double y2 = h - Points - scale * data[i + 1];
g2.draw(new Line2D.Double(x1, y1, x2, y2));
}
// Mark data points.
g2.setPaint(Color.red);
for (int i = 0; i < data.length; i++) {
double x = Points + i * xInc;
double y = h - Points - scale * data[i];
g2.fill(new Ellipse2D.Double(x - 2, y - 2, 4, 4));
}
}
public void paint(Graphics g, Shape a) {
Graphics2D g2 = (Graphics2D) g;
Rectangle2D abounds = a.getBounds2D();
AffineTransform saveTransform = g2.getTransform();
Paint savePaint = g2.getPaint();
try {
g2.translate(abounds.getX() - bounds.getX(), abounds.getY() - bounds.getY());
g2.setPaint(Color.BLACK); // FIXME
p.paint(g2);
} finally {
g2.setTransform(saveTransform);
g2.setPaint(savePaint);
}
}
private void paintBackgroundEnabledAndWindowNotFocused(Graphics2D g) {
roundRect = decodeRoundRect1();
g.setPaint(decodeGradient10(roundRect));
g.fill(roundRect);
roundRect = decodeRoundRect2();
g.setPaint(decodeGradient16(roundRect));
g.fill(roundRect);
rect = decodeRect1();
g.setPaint(color4);
g.fill(rect);
path = decodePath4();
g.setPaint(color72);
g.fill(path);
}
public void paintComponent(Graphics g) {
super.paintComponent(g);
Graphics2D g2 = (Graphics2D) g;
g2.setRenderingHint(RenderingHints.KEY_ANTIALIASING, RenderingHints.VALUE_ANTIALIAS_ON);
Dimension d = getSize();
Color fg3D = Color.lightGray;
g2.setPaint(fg3D);
g2.draw3DRect(0, 0, d.width - 1, d.height - 1, true);
g2.draw3DRect(3, 3, d.width - 7, d.height - 7, false);
g2.setPaint(fg);
test.setBounds(boardGridSize * 4 + 10, boardGridSize * 5 - 20, 100, 50);
this.add(test);
paintBoard(g2);
}
/** the paintComponent -- paints the board every repaint() call. */
public void paintComponent(Graphics g) {
super.paintComponent(g);
Graphics2D g2 = (Graphics2D) g;
for (int i = 0; i < B_WIDTH; i++) {
for (int j = 0; j < B_HEIGHT; j++) {
Rectangle2D rect = new Rectangle2D.Double((i * 40) + 1, (j * 40) + 1, 38, 38);
g2.setPaint(balls[i][j].getColor());
g2.fill(rect);
Ellipse2D circle = new Ellipse2D.Double();
circle.setFrame(rect);
g2.setPaint(balls[i][j].getcColor());
g2.fill(circle);
}
}
}
/**
* Erases the ball.
*
* @param ballGraphic The graphics object to use.
*/
public void erase(Graphics2D ballGraphic) {
double upperLeftX = _position.x - (_pixelWidth / 2);
double upperLeftY = _position.y - (_pixelHeight / 2);
ballGraphic.setPaint(Color.WHITE);
ballGraphic.fillOval((int) upperLeftX, (int) upperLeftY, _pixelWidth, _pixelHeight);
}
protected void drawShape(Shape s) {
if (fillGradient) {
g2.setPaint(fillGradientObject);
g2.fill(s);
} else if (fill) {
g2.setColor(fillColorObject);
g2.fill(s);
}
if (strokeGradient) {
g2.setPaint(strokeGradientObject);
g2.draw(s);
} else if (stroke) {
g2.setColor(strokeColorObject);
g2.draw(s);
}
}
protected void paintComponent(Graphics g) {
super.paintComponent(g);
Graphics2D g2 = (Graphics2D) g;
g2.setRenderingHint(RenderingHints.KEY_ANTIALIASING, RenderingHints.VALUE_ANTIALIAS_ON);
int w = getWidth();
int h = getHeight();
int pointSize = Math.max(Math.min(w, h) / 80, 4);
double xInc = (double) (w - 2 * PAD) / (MAX_X - 1);
double scale = (double) (h - 2 * PAD) / MAX_Y;
// Draw abcissa.
int tickInc = MAX_X / 10;
for (int i = 0; i <= MAX_X; i += tickInc) {
int x = PAD + (int) (i * xInc);
int y = h - PAD;
g.drawString(Integer.toString(i), x - 5, y + 20);
g2.draw(new Line2D.Double(x, y - 5, x, y + 5));
}
g2.draw(new Line2D.Double(PAD, h - PAD, w - PAD / 2, h - PAD));
AffineTransform orig = g2.getTransform();
g2.rotate(-Math.PI / 2);
g2.setColor(Color.black);
g2.drawString("Number of comparisons", -((h + PAD) / 2), PAD / 3);
g2.setTransform(orig);
// Draw ordinate.
tickInc = (h - PAD) / 10;
for (int i = tickInc; i < h - PAD; i += tickInc) {
int x = PAD;
int closest_10 = ((int) (i / scale) / 10) * 10;
int y = h - PAD - (int) (closest_10 * scale);
if (y < PAD) break;
String tickMark = Integer.toString(closest_10);
int stringLen = (int) g2.getFontMetrics().getStringBounds(tickMark, g2).getWidth();
g.drawString(tickMark, x - stringLen - 8, y + 5);
g2.draw(new Line2D.Double(x - 5, y, x + 5, y));
}
g2.draw(new Line2D.Double(PAD, PAD / 2, PAD, h - PAD));
g.drawString("Array Size", (w - PAD) / 2, h - PAD + 40);
for (int index = 0; index < plot_data.size(); index++) {
int[] data = plot_data.get(index);
// Mark data points.
g2.setPaint(plot_colors.get(index));
for (int i = 0; i < data.length; i++) {
double x = PAD + i * xInc;
double y = h - PAD - scale * data[i];
g2.fill(new Ellipse2D.Double(x - pointSize / 2, y - pointSize / 2, pointSize, pointSize));
}
g2.setFont(textFont);
int stringHeight =
(int) g2.getFontMetrics().getStringBounds(plot_names.get(index), g2).getHeight();
g.drawString(plot_names.get(index), PAD + 20, PAD + (index + 1) * stringHeight);
}
}
/** paint the canvas into a image file of given width and height */
public void writeToImage(String s, int w, int h) {
String ext;
File f;
try {
ext = s.substring(s.lastIndexOf(".") + 1);
f = new File(s);
} catch (Exception e) {
System.out.println(e);
return;
}
if (!ext.equals("jpg") && !ext.equals("png")) {
System.out.println("Cannot write to file: Illegal extension " + ext);
return;
}
boolean opq = true;
if (theOpaque != null) opq = theOpaque;
BufferedImage image = new BufferedImage(w, h, BufferedImage.TYPE_INT_RGB);
Graphics2D g2 = image.createGraphics();
g2.setBackground(Color.white);
g2.setPaint(Color.black);
g2.setStroke(new BasicStroke(1));
g2.setRenderingHint(
RenderingHints.KEY_INTERPOLATION, RenderingHints.VALUE_INTERPOLATION_BICUBIC);
doBuffer(g2, true, new Rectangle(0, 0, w, h));
try {
ImageIO.write(image, ext, f);
} catch (Exception e) {
System.out.println(e);
}
}
/** Draws the edge structure of the tree */
public void drawEdges(Graphics2D gg) {
gg.setPaint(Color.black);
Enumeration nodeList = argument.getBreadthFirstTraversal().elements();
// For each vertex...
while (nodeList.hasMoreElements()) {
// Get its edge list...
TreeVertex vertex = (TreeVertex) nodeList.nextElement();
Enumeration edges = vertex.getEdgeList().elements();
// For each edge in the list...
while (edges.hasMoreElements()) {
TreeEdge edge = (TreeEdge) edges.nextElement();
// If we have several vertices on layer 0, only draw
// edges for layers below that
if (!(argument.isMultiRoots() && vertex.getLayer() == 0)) {
// If the edge has been selected with the mouse,
// use a thick line
if (edge.isSelected()) {
gg.setStroke(selectStroke);
}
gg.draw(edge.getShape(this));
// If we used a thick line, reset the stroke to normal
// line for next edge.
if (edge.isSelected()) {
gg.setStroke(solidStroke);
}
TreeVertex edgeSource = edge.getDestVertex();
}
}
}
}
public void paintComponent(Graphics g) {
Graphics2D g2 = (Graphics2D) g;
String message = "Hello, World!";
Font f = new Font("Serif", Font.BOLD, 36);
g2.setFont(f);
FontRenderContext context = g2.getFontRenderContext();
Rectangle2D bounds = f.getStringBounds(message, context);
double x = (getWidth() - bounds.getWidth()) / 2;
double y = (getHeight() - bounds.getHeight()) / 2;
double ascent = -bounds.getY();
double baseY = y + ascent;
g2.drawString(message, (int) x, (int) baseY);
g2.setPaint(Color.LIGHT_GRAY);
g2.draw(new Line2D.Double(x, baseY, x + bounds.getWidth(), baseY));
Rectangle2D rect = new Rectangle2D.Double(x, y, bounds.getWidth(), bounds.getHeight());
g2.draw(rect);
}
private void paintBorderEnabled(Graphics2D g) {
rect = decodeRect7();
g.setPaint(decodeGradient5(rect));
g.fill(rect);
rect = decodeRect8();
g.setPaint(decodeGradient4(rect));
g.fill(rect);
rect = decodeRect9();
g.setPaint(color10);
g.fill(rect);
rect = decodeRect10();
g.setPaint(color10);
g.fill(rect);
rect = decodeRect11();
g.setPaint(color11);
g.fill(rect);
}
// draws the tree, starting from the given node, in the region with x values
// ranging
// from minX to maxX, with y value beginning at y, and next level at y +
// yIncr.
private void drawTree(Graphics2D g2, TreeNode<E> t, int minX, int maxX, int y, int yIncr) {
// skip if empty
if (t == null) return;
// compute useful coordinates
int x = (minX + maxX) / 2;
int nextY = y + yIncr;
// draw black lines
g2.setPaint(Color.black);
if (t.left != null) {
int nextX = (minX + x) / 2;
g2.draw(new Line2D.Double(x, y, nextX, nextY));
}
if (t.right != null) {
int nextX = (x + maxX) / 2;
g2.draw(new Line2D.Double(x, y, nextX, nextY));
}
// measure text
FontMetrics font = g2.getFontMetrics();
String text = t.data + "";
int textHeight = font.getHeight();
int textWidth = font.stringWidth(text);
// draw the box around the node
Rectangle2D.Double box =
new Rectangle2D.Double(
x - textWidth / 2 - ARC_PAD,
y - textHeight / 2 - ARC_PAD,
textWidth + 2 * ARC_PAD,
textHeight + 2 * ARC_PAD);
Color c = new Color(187, 224, 227);
g2.setPaint(c);
g2.fill(box);
// draw black border
g2.setPaint(Color.black);
g2.draw(box);
// draw text
g2.drawString(text, x - textWidth / 2, y + textHeight / 2);
// draw children
drawTree(g2, t.left, minX, x, nextY, yIncr);
drawTree(g2, t.right, x, maxX, nextY, yIncr);
}
private void paintBorderDisabled(Graphics2D g) {
rect = decodeRect2();
g.setPaint(decodeGradient1(rect));
g.fill(rect);
rect = decodeRect3();
g.setPaint(decodeGradient2(rect));
g.fill(rect);
rect = decodeRect4();
g.setPaint(color6);
g.fill(rect);
rect = decodeRect5();
g.setPaint(color4);
g.fill(rect);
rect = decodeRect6();
g.setPaint(color4);
g.fill(rect);
}
private void paintBackgroundDisabled(Graphics2D g) {
roundRect = decodeRoundRect1();
g.setPaint(decodeGradient1(roundRect));
g.fill(roundRect);
roundRect = decodeRoundRect2();
g.setPaint(decodeGradient12(roundRect));
g.fill(roundRect);
rect = decodeRect1();
g.setPaint(color4);
g.fill(rect);
path = decodePath3();
g.setPaint(color61);
g.fill(path);
path = decodePath4();
g.setPaint(decodeGradient13(path));
g.fill(path);
}