# Circles drawn mainly in X an Y axises, WHY? I have created a loop using processing that draws circles, the overall shape should be a circle. However they are mainly drawn close to X and Y axis. I have randomized the angle for the calculus of its location, I cannot see where the problem is.

Code as follows:

``````for (int omega = 0; omega<1080; omega++){  //loop for circle creation

int  color1= (int)random(100);  //little variation of color for each circle
int  color2= (int)random(100);

int locationY = (int)(sin(radians(omega))*random(width/2+1)); //location calcualtion
fill(0,color1+200,color2+200,50);
}
``````
• Wich random implementation do you use ? The normal build in is sometimes prone to cluster values. Try using another seed or try another random implementation. There are a couple of real good ones. Try googling for Mersenne Twister, it is a real good one and you can find plenty implementations for java. – Ryu Kajiya Nov 18 '14 at 13:12
• What does "close to X and Y axis" mean? Can you provide a screenshot? Upload it to imgur. – Kevin Nov 18 '14 at 13:16
• Attached to post – eneko Nov 18 '14 at 13:25

Good point @Durandal (+1)

However I have one more thought with random circles.

When you generate random distance with such code:

``````double distance = random( width/2  );
``````

you random from uniform distribution. I mean all values from `0` to `width/2` have the same probability. But circle with `3*r` radius have `9` times bigger area then circle with `r` radius. So, the smaller distance from center, the greater density we can see.

This way generated cloud do not have uniform density as you can see on first image. But if you change the probability density function in such way that bigger values are less probable that smaller ones you can get uniformly generated cloud.

Such simple modification:

``````double distance = Math.sqrt( random( width/2 * width/2 ) );
``````

produces more uniformly distributed circles, as you can see on second image. I hope this can be helpful..

• Good point, and very nicely demonstrated with the pictures +1 – Durandal Nov 18 '14 at 18:27
• Awesome explanation my friend. Many many thanks! – eneko Nov 19 '14 at 15:16

Its an artefact of the way you calculate location, you're pulling two different random values for the X and Y component:

``````int locationY = (int)(sin(radians(omega))*random(width/2+1)); //location calcualtion