As you can see from the title, I'm busy programming a little programm for visualizing fractals in Java. Anybody who deals with fractals will come to the point where he/she searches for a solution to get these stupid "bands" away, when you just colour a pixel by the number of iterations it took to escape. So I searched for a more advanced colouring algorithm, finding the "normalized iteration count". The formula I'm using is:
float loc = (float) 1 - Math.log(Math.log(c.abs())) / Math.log(2);
Everybody on the Internet is so happy about this algorithm, everybody uses it, everbody gets great results. Except me. I thought, this algorithm should provide a float between 0 and 1. But that doesn't happen. I did some calculations and came to the conclusion, that this algorithm only works for c.abs() >= Math.E && c.abs() <= Math.exp(2) (that is Math.E * Math.E). In numbers this means, my input into this equation has to be between about 2.718 and 7.389.
But a complex number c is considerd to tend towards infinity when its magnitude gets greater than 2. But for any Input smaller than Math.E, I get a value greater than one. And for any number greater than Math.exp(2), it gets negative. That is the case if a complex number escapes really fast.
So please tell me: what am I doing wrong. I'm desperate.
I was wrong: the code I posted is correct, I just 1. used it the wrong way and so it didn't provide the right output. 2. had to set the bailout value of the mandelbrot/julia algorithm to 10, otherwise I would've got stupid bands again.