# Java - how do you move an object in a wavy pattern?

I know the following code will move an object in a straight line. How can I get the object to travel in a wavy line? I know that something extra is required for the `x` variable.

``````public void draw(Graphics2D g)
{
g.setColor(Color.WHITE);
g.fillOval ((int) (x - r), (int) (y - r), (int)
(2 * r),
(int) (2 * r));

y++;

if (y - r > height)
y = -r;
}
``````

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Look into `sin` and `cos`. –  Polynomial Dec 1 '11 at 14:28
Could you upload a picture of how you want it to move? –  user1071777 Dec 1 '11 at 14:33
Here is an URL which shows the pattern: rookery.s3.amazonaws.com/1772500/1772658_76cb_625x625.jpg –  AWb Dec 1 '11 at 14:34
Sine or cosine should produce that pattern. –  user1071777 Dec 1 '11 at 14:45
I have used y++; x-=Math.sin(Math.toRadians(50)); but this simply changes the object direction while its moving. A consist left to right movement is what I am after. –  AWb Dec 1 '11 at 14:48
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Use the sine or cosine function to calculate y as a function of x.

Multiply the sine or cosine function to increase the amplitude (how high it goes)

``````y = 100 * sin(x) // will make it have peaks of -100 and 100
``````

Divide the x to increase the period. (distance between peaks)

``````y = sin(x/2) // will make it take twice the x distance between peaks.
``````

Something like this:

``````public void draw(Graphics2D g)
{
g.setColor(Color.WHITE);
g.fillOval ((int) (x - r), (int) (y - r), (int)
(2 * r),
(int) (2 * r));

x++; // Left to right movement
// Example, modify the multipliers as necessary
y = 100 * Math.sin(Math.toDegrees(x/4))
}
``````
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Many thanks, much appreciated! My solution was y++ (object dropping downwards), and x += 10*Math.sin(y/5); –  AWb Dec 1 '11 at 15:07

Including a sin(x) or cos(x) in your function will provide a regular wave pattern, irregular pattern needs a more sophisticated function

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Hi, Can you advise how to apply this into the code? I have already attempted to use Math.sin(x) and Math.cos(x) but a steady wavy line is not showing on screen. –  AWb Dec 1 '11 at 14:31
so you want the line to be wavy but irregularly wavy? Then I would add a Random variable that inflicts the amplitude of the wave. –  AndroidHustle Dec 1 '11 at 14:36
It does not matter how wavy the object movement is. I want to be able to see the object change directions (from left to right) in a wavy pattern. –  AWb Dec 1 '11 at 14:39
I'm not sure where the motion is taking place in your code. Never worked with animations in java. But if you integrate a sine function where x is a variable that loops a value from -pi to pi you will have a wave as the product of that when plotted. Be aware that the product from a sine or cosine function always is between -1 and 1 so you may have to multiply it to actually show it as a wavy movement in your animation, i.e. -1 and 1 may be too small of a value to actually make a visible impact of the movement –  AndroidHustle Dec 1 '11 at 14:50

I hope I'm interpreting this right. Could use the sine or cosine of either your x or y coordinate. I'm not at a machine with java so I can't make an example at the moment..

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How would you apply a sine or cosine function into this code? Adding something like x-=Math.sin(Math.toRadians(50)); only changes direction of the object one way. One want a consist movement from left and right. Any suggestions are appreciated. –  AWb Dec 1 '11 at 14:44
If you want it to go left to right, you need to increment your x variable. –  user1071777 Dec 1 '11 at 14:54
Check user1071777's answer! Sorry for being brief –  TFennis Dec 1 '11 at 14:59

You're right that you need to update both the x and y variables to get a wavy line. Here's the general strategy for a horizontal line that is wavy up and down:

1. Choose a function f(x) that has the shape you want. This will be used to calculate values for y. (For instance, you can use `y = amplitude * Math.sin(frequency * x)` to get a regular sine wave of a given amplitude and frequency.)
2. If necessary, write the code that implements your function.
3. Set x to some initial value.
4. In `draw`, before you paint the oval, calculate `y = f(x);`. Paint the oval and then increment `x`. If necessary, reset `x` so it stays in range.

If you want a vertical line that is wavy left and right, just reverse the roles of `x` and `y` in the above. If you want the oval to go in the reverse direction, just decrement instead of increment in step 4.

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I know you already accepted an answer, but here's something to draw additional inspiration from that I whipped up...

``````package wavy;

import java.awt.BorderLayout;
import java.awt.Color;
import java.awt.Dimension;
import java.awt.Graphics;
import java.awt.Graphics2D;
import java.util.Timer;
import javax.swing.JFrame;
import javax.swing.JPanel;

public class Wavy {

public static void main(String[] args) {

final JFrame frame = new JFrame("Wavy!");

final WavyPanel wp = new WavyPanel();

frame.setDefaultCloseOperation(JFrame.EXIT_ON_CLOSE);

final Ticker t = new Ticker(wp);
final Repainter r = new Repainter(wp);

frame.pack();
frame.setVisible(true);

final Timer tickTimer = new Timer();
final Timer paintTimer = new Timer();

paintTimer.schedule(r, 1000, 50);
tickTimer.schedule(t, 1000, 10);

}

private static class WavyPanel extends JPanel {

private final Dimension size = new Dimension(640, 480);
private int amplitude = 50;
private int frequency = 5;

private int x = 0;
private double y = size.height / 2;
private int yBase = 0;

WavyPanel() {

super(true);

}

@Override
protected void paintComponent(final Graphics g) {

final Graphics2D g2 = (Graphics2D)g;

g2.setColor(Color.WHITE);
g2.fillRect(0, 0, size.width, size.height);

g2.setColor(Color.BLACK);
g2.fillOval(x, (int)y, 30, 30);

}

@Override
public Dimension getPreferredSize() {
return size;
}

@Override
public Dimension getMinimumSize() {
return size;
}

@Override
public Dimension getMaximumSize() {
return size;
}

public void tick() {

//Move a pixel to the right; loop over to the left when reaching edge
x = (++x) % size.width;

//Length of one full wave = panel width divided by frequency
final int waveLength = size.width / frequency;

//Incrementing yBase; capping off at wavelength
yBase = (++yBase) % waveLength;

//Normalizing to [0..1]
final double normalized = (double)yBase / (double)waveLength;

//Full wave at 2*pi, means...
final double radians = normalized * Math.PI * 2;

//Getting the sine

//Multiplying with amplitude, add to center position and we have our y
y = (int)(sine * amplitude) + size.height/2;

}

}

private static class Ticker extends TimerTask {

private final WavyPanel panel;

Ticker(final WavyPanel panel) {

this.panel = panel;

}

@Override
public void run() {

panel.tick();

}

}

private static class Repainter extends TimerTask {

private final WavyPanel panel;

Repainter(final WavyPanel panel) {

this.panel = panel;

}

@Override
public void run() {

panel.repaint();

}

}

}
``````

This should run at an approximate 20 frames per second. You can increase this by setting the second argument of `paintTimer.schedule(r, 1000, 50)` lower. The speed of movement can be altered by lowering (speeding up) or increasing (slower) the second argument of `tickTimer.schedule(t, 1000, 50)`.

Changing the `amplitude` field of WavyPanel will change how high/low the circle moves. Changing the `frequency` to a higher value will result in shorter waves, while a lower value will produce longer waves.

With some additional work you could add in controls to change the amplitude and frequency on-the-fly. Some additional notes:

• You may wish to add some safeguard to the `tick()` method to make sure that when one invocation is already running, additional ones are skipped until the first one is done. Otherwise the calculations could fail for short tick intervals. A semaphore could be used here.
• Since trigonometric calculations aren't exactly the cheapest, you may consider caching some results (e.g. in an array) for re-use if many similar animations are to be played or if there's a lot more drawing going on.
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