Java: Moving a label in a circular path

I'm writing a sprite like simulation where I need to move a label with an image in a circular path. I have 4 starting points; west, north, east and south. The label should move in a clockwise manner.

This is what I wrote and it works well, except for the fact that north and south positions circle counter-clockwise. The reason is that, I've used a separate trig formula to handle directions 2 and 4.

``````    int xstart = 450
int ystart = 325;
int h = 0;
double theta = -0.1047;

for (int p = 0;; p++)
{
int xocir = xstart;
int yocir = ystart;
int pocir = 0; // perpendicular and base of outer circle
int bocir = 0;

if (direction == 1)//west - clockwise
{
pocir = (int) (Math.cos(theta) * (h + 300));
bocir = (int) (Math.sin(theta) * (h + 300));
}
else if (direction == 2)//north - counter-clockwise
{
pocir = (int) (Math.sin(theta) * (h + 300));//reversed sin,cos
bocir = (int) (Math.cos(theta) * (h + 300));
}
else if (direction == 3)//east - clockwise
{
pocir = (int) (Math.cos(theta) * (h - 300));
bocir = (int) (Math.sin(theta) * (h - 300));
}
else if (direction == 4)//south - counter-clockwise
{
pocir = (int) (Math.sin(theta) * (h - 300));
bocir = (int) (Math.cos(theta) * (h - 300));
}

xocir = xocir - pocir;
yocir = yocir - bocir;
theta = theta - 0.005;

setBounds(xocir, yocir, 65, 65);
}
``````

Is there a more efficient way to tackle this? Maybe a simpler trig method. And what can I do to make sure all motion is clockwise?

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Why are you using a different trig formula for different quadrants? –  Hovercraft Full Of Eels Jun 3 '12 at 19:52
Also, consider creating and posting a small compilable and runnable demonstration program, an sscce. –  Hovercraft Full Of Eels Jun 3 '12 at 19:53
See also this `related approach`. –  trashgod Jun 3 '12 at 20:17

Just use one of the clockwise if statements instead of a different equation depending on direction. The start position is controlled by the initial value of theta and the parametric equations used.

Let
x = `circleCenterX - (int) (Math.sin(theta) * radius)`,
y = `circleCenterY - (int) (Math.cos(theta) * radius)`,
`circleCenterX` = 450,
`circleCenterY` = 325, and
`radius` = 300.

``````If theta = 0 deg, then
(x,y) = (450 - sin(0) * 300, 325 - cos(0) * 300)
= (450, 25) which is north of (450, 325)

If theta = 90 deg, then
(x,y) = (450 - sin(90) * 300, 325 - cos(90) * 300)
= (150, 325) which is west of (450, 325)

If theta = 180 deg, then
(x,y) = (450 - sin(180) * 300, 325 - cos(180) * 300)
= (450, 625) which is south of (450, 325)

If theta = 270 deg, then
(x,y) = (450 - sin(270) * 300, 325 - cos(270) * 300)
= (750, 325) which is east of (450, 325)
``````

The following class encapsulates this idea:

``````import java.awt.Dimension;
import java.util.Timer;

import javax.swing.JFrame;
import javax.swing.JLabel;
import javax.swing.SwingUtilities;

public class RotatingLabel extends JLabel {
private static final long serialVersionUID = 474652899660954020L;
private final int circleCenterX;
private final int circleCenterY;
private double theta;
private final double thetaIncrement;

public RotatingLabel(String text, //
int circleCenterX, int circleCenterY, int radius, //
double initialTheta, double thetaIncrement) {
super(text);
this.circleCenterX = circleCenterX;
this.circleCenterY = circleCenterY;
this.theta = initialTheta;
this.thetaIncrement = thetaIncrement;
rotate();
}

public void rotate() {
setBounds( //
this.circleCenterX - (int) (Math.sin(this.theta) * this.radius), //
this.circleCenterY - (int) (Math.cos(this.theta) * this.radius), //
(int) getPreferredSize().getWidth(), (int) getPreferredSize().getHeight());
this.theta -= this.thetaIncrement;
}

public static void main(String[] args) {
double initialTheta = Math.toRadians(0); // start north
// double initialTheta = Math.toRadians(90); // start west
// double initialTheta = Math.toRadians(180); // start south
// double initialTheta = Math.toRadians(270); // start east

final RotatingLabel label = new RotatingLabel("Foo Bar", //
450, // circleCenterX
325, // circleCenterY
initialTheta, //
0.005); // thetaIncrement

JFrame frame = new JFrame();
frame.setSize(new Dimension(800, 700));
frame.setDefaultCloseOperation(JFrame.EXIT_ON_CLOSE);
frame.setVisible(true);

Timer timer = new Timer();
@Override
public void run() {
SwingUtilities.invokeLater(new Runnable() {
@Override
public void run() {
label.rotate();
}
});
}
}, 0, 1000l / 60l); // 60 frames per second
}
}
``````
-
I started with something similar. Doesn't this always make the starting position as west? Is there a tweak I can make to force it change the quadrant? –  Tru Jun 3 '12 at 20:12
@Tru, yes, you are right. I updated my answer to explain the start position. –  creemama Jun 3 '12 at 20:36

Again, just use one equation for all quadrants. For example this code shows 4 JLabels, one in each quadrant (each rotated Math.PI/2 from its neighbor), and the same equation is used to rotate all the labels:

``````import java.awt.Dimension;
import java.awt.event.ActionEvent;
import java.awt.event.ActionListener;

import javax.swing.*;

public class RotateLabels extends JPanel{
private static final int PREF_W = 600;
private static final int PREF_H = PREF_W;
private static final int TIMER_DELAY = 30;
protected static final double DELTA_THETA = Math.PI / 120;
private JLabel[] labels = new JLabel[4];
private double theta = -Math.PI / 4.0;

public RotateLabels() {
setLayout(null);
for (int i = 0; i < labels.length; i++) {
labels[i] = new JLabel("Label " + (i + 1));
labels[i].setSize(labels[i].getPreferredSize());
}
setAllLabelLocations();
new Timer(TIMER_DELAY, new ActionListener() {

@Override
public void actionPerformed(ActionEvent arg0) {
theta += DELTA_THETA;
setAllLabelLocations();
}
}).start();
}

private void setAllLabelLocations() {
for (int i = 0; i < labels.length; i++) {
setLabelLocation(labels[i], i);
}
repaint();
}

private void setLabelLocation(JLabel label, int i) {
double radius = PREF_W / 3.0;
int w = label.getWidth();
int h = label.getHeight();

double angle = theta + i * Math.PI / 2.0;
double centerX = radius * Math.cos(angle);
double centerY = radius * Math.sin(angle);

int x = (int)(centerX - w / 2.0) + PREF_W / 2;
int y = (int)(centerY - h / 2.0) + PREF_H / 2;
label.setLocation(x, y);
}

@Override
public Dimension getPreferredSize() {
return new Dimension(PREF_W, PREF_H);
}

private static void createAndShowGui() {
JFrame frame = new JFrame("Rotate");
frame.setDefaultCloseOperation(JFrame.EXIT_ON_CLOSE);
frame.pack();
frame.setLocationRelativeTo(null);
frame.setVisible(true);
}

public static void main(String[] args) {
SwingUtilities.invokeLater(new Runnable() {
public void run() {
createAndShowGui();
}
});
}
}
``````

Note that this code is not very efficient. If I were to create this "for real" I'd probably create a position look-up table so as to avoid all the floating point calculations that occur during the program's running.

Or more generally:

``````import java.awt.Dimension;
import java.awt.event.ActionEvent;
import java.awt.event.ActionListener;

import javax.swing.*;

@SuppressWarnings("serial")
public class RotateLabels2 extends JPanel{
private static final int PREF_W = 600;
private static final int PREF_H = PREF_W;
private static final int TIMER_DELAY = 10;
protected static final double DELTA_THETA = Math.PI / 420;
private static final int LABEL_COUNT = 12;
private JLabel[] labels = new JLabel[LABEL_COUNT];
private double theta = -Math.PI / 4.0;

public RotateLabels2() {
setLayout(null);
for (int i = 0; i < labels.length; i++) {
labels[i] = new JLabel("Label " + (i + 1));
labels[i].setSize(labels[i].getPreferredSize());
}
setAllLabelLocations();
new Timer(TIMER_DELAY, new ActionListener() {

@Override
public void actionPerformed(ActionEvent arg0) {
theta += DELTA_THETA;
setAllLabelLocations();
}
}).start();
}

private void setAllLabelLocations() {
for (int i = 0; i < labels.length; i++) {
setLabelLocation(labels[i], i);
}
repaint();
}

private void setLabelLocation(JLabel label, int i) {
double radius = PREF_W / 3.0;
int w = label.getWidth();
int h = label.getHeight();

double angle = theta + i * 2 * Math.PI / labels.length;
double centerX = radius * Math.cos(angle);
double centerY = radius * Math.sin(angle);

int x = (int)(centerX - w / 2.0) + PREF_W / 2;
int y = (int)(centerY - h / 2.0) + PREF_H / 2;
label.setLocation(x, y);
}

@Override
public Dimension getPreferredSize() {
return new Dimension(PREF_W, PREF_H);
}

private static void createAndShowGui() {
JFrame frame = new JFrame("Rotate");
frame.setDefaultCloseOperation(JFrame.EXIT_ON_CLOSE);
frame.pack();
frame.setLocationRelativeTo(null);
frame.setVisible(true);
}

public static void main(String[] args) {
SwingUtilities.invokeLater(new Runnable() {
public void run() {
createAndShowGui();
}
});
}
}
``````
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