This is my progress with a mandelbrot fractal generation:

It appears with cases where the edge cases between colors are small, it has a good "blending" effect. However, as the distance between colors become larger, you can see very explicitly and evidently the separation of colors. I was wondering, how would I achieve a blending effect without using something like bicubic interpolation post-processing?

Attached is the code I have to generate the fractal:

```
public static void drawFractal()
{
Complex Z;
Complex C;
double x;
double y;
// The min and max values should be between -2 and +2
double minX = -2.0; // use -2 for the full-range fractal image
double minY = -2.0; // use -2 for the full-range fractal image
double maxX = 2.0; // use 2 for the full-range fractal image
double maxY = 2.0; // use 2 for the full-range fractal image
double xStepSize = ( maxX - minX ) / width;
double yStepSize = ( maxY - minY ) / height;
int maxIterations = 100;
int maxColors = 0xFF0000;
// for each pixel on the screen
for( x = minX; x < maxX; x = x + xStepSize)
{
for ( y = minY; y < maxY; y = y + yStepSize )
{
C = new Complex( x, y );
Z = new Complex( 0, 0 );
int iter = getIterValue( Z, C, 0, maxIterations );
int myX = (int) ( ( x - minX ) / xStepSize );
int myY = (int) ( ( y - minY ) / yStepSize );
if ( iter < maxIterations )
{
myPixel[ myY * width + myX ] = iter * ( maxColors / maxIterations ) / 50;
}
}
}
}
```

iseach step in the fractal. – user2864740 May 11 '14 at 0:49`myPixel`

array, that value is a bit-fiddled RGB. – theGreenCabbage May 11 '14 at 1:09