# Mandelbrot very slow to refresh, any way to make it faster?

I've been working recently on a fractal generator, and have been specifically working on the Mandelbrot set. Unfortunately, zooming and moving seems to be very inneficient and takes quite a while to refresh. I am generating it every time I zoom, and I know this is probably not the most efficient way of doing this, and I can't seem to find code that uses another method that I understand. These are the following methods I use, the first being an intial generation, the second being a refresh method.

``````    private void genMandelbrot(Dimension size) {
for(int x=0;x<size.width;x++) {
for(int y=0;y<size.height;y++) {
double moveX=globalx;
double moveY=globalx;
//zoom and x/y offset.
double real = 1.5 * (x - size.width / 2) / (0.5 * zoom * size.width) + moveX;
double imaginary=(y - size.height / 2) / (0.5 * zoom * size.height) + moveY;
double newRe=0,newIm=0,oldRe=0,oldIm=0;

int i;
for(i=0;i<8000;i++) {
oldRe = newRe;
oldIm = newIm;
newRe = oldRe * oldRe - oldIm * oldIm + real;
newIm = 2 * oldRe * oldIm + imaginary;
if((newRe * newRe + newIm * newIm) > 4) break;
}

Cell c = new Cell(Color.getHSBColor(i % 256, i % 255, 255 * ((i<20)? 1:0)), new Dimension(1,1), new Point(x,y));
}
}
}
public void refreshMandelbrot(Dimension size) {
for(Cell c : cells) {
double moveX=globalx;
double moveY=globalx;
int x=c.x;
int y=c.y;
//zoom and x/y offset.
double real = 1.5 * (x - size.width / 2) / (0.5 * zoom * size.width) + moveX;
double imaginary=(y - size.height / 2) / (0.5 * zoom * size.height) + moveY;
double newRe=0,newIm=0,oldRe=0,oldIm=0;

int i;
for(i=0;i<8000;i++) {
oldRe = newRe;
oldIm = newIm;
newRe = oldRe * oldRe - oldIm * oldIm + real;
newIm = 2 * oldRe * oldIm + imaginary;
if((newRe * newRe + newIm * newIm) > 4) break;
}

cells.set(cells.indexOf(c), new Cell(Color.getHSBColor(i % 256, i % 255, 255 * ((i<20)? 1:0)), new Dimension(1,1), new Point(x,y)));
}
System.out.println("Set refreshed.");
}
``````
-
Profile before try to optimize. Where is the most time spend? –  MrSmith42 Mar 21 '13 at 20:41

I suppose that `cells` is some kind of `List` implementation?

In that case, the most time of your refresh method is spent in this line:

`cells.set(cells.indexOf(c), new Cell(Color.getHSBColor(i % 256, i % 255, 255 * ((i<20)? 1:0)), new Dimension(1,1), new Point(x,y)));`

More precisely in `cells.indexOf(c)`, where the entire list is iterated to find the correct index of `c`.

Since you are just changing the colour of each cell, the easiest fix is to change the colour of the cell you are currently working with. I don't know the actual implementation of your `Cell` class, but if it had a method `setColor(...)`, you could replace the above line with

`c.setColor(Color.getHSBColor(i % 256, i % 255, 255 * ((i<20)? 1:0)));`

This reduces the runtime of the `refreshMandelbrot` method to the same as for the `genMandelbrot` method.

I don't know the purpose of the `Cell` class, but if you are only using it as a wrapper for a colour, you might gain some more performance if you store the computed colours for each pixel in a two-dimensional array or write directly to a `Graphics` or `Raster` object instead of handling a flat list of cell wrappers.

-

Most likely you need to subdivide the fractal and compute the less interesting tiles less intense. 8000 repetiton is a lot. You can also simplify the calculation a bit.

-