# Good place to find different procedual and non-procedual generation algorithms

Does anyone know a good place to find different algorithms for generating worlds, universes, maps, etc. ?

I have searched several places but most of the times the pages only tell you about the theory behind those algorithms. What i am realy looking for would be code snippets or pseudo code examples of those, but most of the times you (or at least I) don't find these.

Language of the code snippets doesn't realy matter because most of them are easy to port, would prefer pseudo code or java tho.

What i am currently looking for is:

Generating a galaxy. (Especialy to get spiral arm type galaxies, not just random placement or clustering).

Generating star systems (random plantes and orbits based on a seed).

Landscape and texture generation (I have tried perlin noise based on a seed for this and get pretty nice results, just wonder if there are other good code examples out there).

Resources and other meta data generation based on the landscape and other factors.

Edit: For spiral arm galaxy i currently have this:

``````import java.util.ArrayList;
import java.util.Random;

public class SpiralUniverse {

private ArrayList<Position2f> Galaxies = new ArrayList<Position2f>();
private int NumberOfStars;
//# logarithmic spiral constants
//# http://en.wikipedia.org/wiki/Logarithmic_spiral
private float A = 1.0f;
private float B = 0.20f;
private float Windings; // 12.4f
private float MaxAngle;
//# How far stars may be away from spiral arm centers.
private float Drift = 0.3f;
private Random Rand;

public SpiralUniverse(int numberofstarts, int seed, float windings) {
NumberOfStars = numberofstarts;
Windings = windings;
Rand = new Random(seed);
MaxAngle = (float) (2.0 * Math.PI * Windings);
generateGalaxies();
}

private void generateGalaxies() {
for (int i = 0; i < NumberOfStars; i++) {
float angle = MaxAngle * Rand.nextFloat();
float x = (float) (A * Math.exp(B * angle) * Math.cos(angle));
x = x + (Drift * x * Rand.nextFloat()) - (Drift * x * Rand.nextFloat());
float y = (float) (A * Math.exp(B * angle) * Math.sin(angle));
y = y + (Drift * y * Rand.nextFloat()) - (Drift * y * Rand.nextFloat());

// 2 Spiral Arms
if (!Rand.nextBoolean()) {
x = -x;
y = -y;
}
}
}

public ArrayList<Position2f> getGalaxies() {
return Galaxies;
}

/**
* Tests the code.
*/
public static void main(String args[]) {
SpiralUniverse su = new SpiralUniverse(2000, 1234, 12.4f);
for (Position2f p : su.getGalaxies()) {
System.out.println("x: " + p.getX() + "; y: " + p.getY());
}
}

public class Position2f {

private float x;
private float y;

public Position2f(float x, float y) {
this.x = x;
this.y = y;
}

public float getX() {
return x;
}

public void setX(float x) {
this.x = x;
}

public float getY() {
return y;
}

public void setY(float y) {
this.y = y;
}
}
}
``````

It gets pretty decent results, altho have to scale coordinates depending an size of galaxy i am creating and Stars tend to cluster arround center a bit. Any better solutions for this ?

-
I saw a TV program once where some astronomers at some University or something had built a simulator of the Big Bang, which created a universe complete with galaxies and planets. Don't know if that jogs anyone's memory. – Sachin Kainth May 17 '12 at 11:58
look at this question on SO. It can help... – UmNyobe May 17 '12 at 12:07
pcg.wikidot.com You might have checked here already; but there're a lot of algos here. If you're a hardline simulationist like me however, you could just sim the collapse of a very large rotating hydrogen cloud. Easier said than done though. – Filipq Jan 3 '13 at 0:56