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I am finding something odd happening with my program.

This program basically is used for component clicking, as it is a concept to test randomness.

enter image description here

As you can see, it is printing correctly, as it should have a tendency to click towards the middle, which is does perfect.

Problem is, it seems biased.

import java.applet.Applet;
import java.awt.Point;
import java.io.File;
import java.io.FileWriter;
import java.io.IOException;
import java.io.PrintWriter;
import java.util.ArrayList;
import java.awt.*;

public class Testing extends Applet {

private static final long serialVersionUID = -2441995094105327849L;

public void init() {
    setSize(WIDTH, HEIGHT);
    img = createImage(WIDTH, HEIGHT);
    g = img.getGraphics();
    g.setColor(new Color(0, 0, 0));
    g.fillRect(0, 0, WIDTH, HEIGHT);
    g.setColor(new Color(55, 55, 55, 55));

public final static int WIDTH = 400, HEIGHT = 400;
public static int[] widths = new int[WIDTH], heights = new int[HEIGHT];
public static ArrayList<String> set = new ArrayList<String>();
public Image img;
public Graphics g;

public void paint(Graphics g) {
    g.drawImage(img, 0, 0, null);

public void update(Graphics g) {

public void main() {
    int count101 = 0;
    int count100 = 0;
    int count99 = 0;
    try {
        PrintWriter pw = new PrintWriter(new FileWriter(
                new File("Data.dat")));
        Point center = new Point(WIDTH / 2, HEIGHT / 2);

        int runs = 10000000;

        for (int i = 0; i < runs; i++) {
            int x = center.x
                    - (int) ((Math.random() - Math.random())
                            * Math.random() * center.x);
            int y = center.y
                    - (int) ((Math.random() - Math.random())
                            * Math.random() * center.y);
            g.fillRect(x, y, 1, 1);
            if((x & y) == 101){
            if((x & y) == 100){
            if((x & y) == 99){
    } catch (IOException e) {

This constantly prints biased results.

It prints the following:


This is considerably biased because it follows a trend for the most part, following a linear increase with all the other values, but once it reaches the 100 mark it decides that it is going to drop the bomb and pick it 6% more then every other.

Anyone know any reasoning for this?

Oh, by the way, I do have a txt file containing every result printed out with repetition of 10,000,000 times with percentages etc, it is quite long so I won't post, but I do have the info.

share|improve this question
You need to seed the random function. –  Austin Brunkhorst Mar 15 '12 at 19:44
Not printing what you expected? That's random for you... –  Luchian Grigore Mar 15 '12 at 19:45
Why are you taking the bitwise AND of x and y? What meaning do you expect that to have? Or did you expect if((x & y) == 101) to mean the same as if ((x == 101) && (y == 101))? –  Jon Skeet Mar 15 '12 at 19:47
Do you mean if((x&y)==101) or if(x==101 && y==101)? –  assylias Mar 15 '12 at 19:49
What is it that you are asking? Why the "counts" for some bit patterns are biased? Simply put, there is bias in your input data, so it is likely that that bias also appears in your output data. Additonally, performing operations on randomly generated numbers does not guarantee that the results are randomly distributed. Actually, there's a theory that says that the more transformations you perform, the more likely the results are going to be normally distributed (which might just be what you are seeing). –  Jochen Mar 15 '12 at 19:51

3 Answers 3

up vote 15 down vote accepted

It is neither Java Math.rand() nor pseudo random generation problem. This is causing the weird (but expected) behaviour:

Math.random() - Math.random()

The sum (and subtraction) of two uniformly distributed random variables do not result in uniformly distributed variable. As far as I remember they result in triangular distribution:

triangular distribution

See: Distribution of mean of two standard uniform variables.

This is what you are seeing - a perfect illustration of 2-dimensional random variable with triangular distribution. Moreover, if you keep adding uniformly distributed random variables you will eventually get normal distribution.

To achieve uniform distribution all you have to do is replace awkward:

int x = center.x
                - (int) ((Math.random() - Math.random())
                        * Math.random() * center.x);

with simple:

int x = (int) (Math.random() * center.x * 2);

Your code (without multiplication) generates random variable with possible values from 0 to center.x * 2 and with expected value at center.x. So far so good. But the distribution is trangular which means the probability density is not equal in that range.

Multiplication of two random variables (out of which one is no longer uniformly distributed) has even more complex distribution, but certainly not uniform.

The latter code snippet generates a simple, uniformly distributed variables with probability density function equal in the whole space.

Side note

In your program it is an obvious math mistake, but pseudo-random generator can in fact generate "non-random" patterns in space. Have a look at Strange Attractors and TCP/IP Sequence Number Analysis, image from that article:


share|improve this answer
Thanks for the suggestion to use: (int) (Math.random() * center.x * 2); But that is Not what I want. Basically, I want it to be more focused on clicking the center (this is for a macro tool for a game, this is to ensure the account will seem more 'human'). For example, when you click a button you are going to go towards the middle more often. You won't be click the last pixel on the edge. The picture I had was of the desired result but, without the biased towards the 100 mark. As you can see here: pastebin.com/8wQuZFhU I want it to be more linear –  user1181445 Mar 15 '12 at 20:54
@Legend: Oh, I see! But this means my answer is very comprehensive, but off-topic! Have a look at these articles: n-sphere and Box–Muller transform. –  Tomasz Nurkiewicz Mar 15 '12 at 21:01

Instead of using Math.random(), use java.util.Random. First, seed the random generator with the current time:

Random randGenerator = new java.util.Random(System.currentTimeMillis());

then generate one random after another.

share|improve this answer
Math.random() is fine - if you don't provide a seed, it seeds itself using the current time. –  BlueRaja - Danny Pflughoeft Mar 15 '12 at 20:23

Seeding the random in this case doesn't do much as it already uses System.nanoTime() to seed itself:

public Random() { this(++seedUniquifier + System.nanoTime()); }
private static volatile long seedUniquifier = 8682522807148012L;

The Math.random() method re-uses the same Random over and over, and uses the default constructor to build it.

The issue is that you're doing calculations on two random numbers which changes distribution.

share|improve this answer

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