I have a bit of an issue (again) with my Perlin Noise generation. I have read multiple articles on how it works. I implemented it with the following code:

```
package PerlinNoise;
import java.util.Random;
public class PerlinNoise {
private long seed;
private Random rand;
private float f;
public PerlinNoise(long seed, float f) {
this.seed = seed;
this.f = f;
rand = new Random();
}
//interpolates generated noise
public float getInterpolatedNoise(float x, float y) {
float a = (int) Math.floor((double) x / f);
float A = a + 1;
float b = (int) Math.floor((double) y / f); //<-- define the points around the point
float B = b + 1;
return cosineInterpolate(
cosineInterpolate((float) getNoise(a, b), (float) getNoise(A, b), (float) (x - a * f) / f),
cosineInterpolate((float) getNoise(a, B), (float) getNoise(A, B), (float) (x - a * f) / f),
(float) (y - b * f) / f); //<-- interpolates everything
}
//cosine interpolation
private float cosineInterpolate(float a, float b, float x) {
float f = (float) ((1f - Math.cos(x * Math.PI)) * .5f);
return a * (1f - f) + b * f;
}
//generates random noise value between -1.0 and 1.0
private float getNoise(float x, float y) {
if(y < 0) {
rand.setSeed((long) (332423 * (Math.sin(Math.cos(x) * x) + Math.cos(Math.sin(y) * y) + Math.tan(seed))));
}else{
rand.setSeed((long) (432423 * (Math.sin(x) + Math.cos(y) + Math.tan(seed))));
}
float n = (float)(((float)rand.nextInt(255) - (float)rand.nextInt(255)) / 255.0f);
return n;
}
```

And here is when I add all my octaves together:

```
//performs perlin noise function
public static float[][] getPerlinNoise(int octaves, long seed) {
float[][] noise = new float[Main.csX][Main.csY];
for(int z = 0; z < octaves; z++) {
float f = (float)Math.pow(2, z);
PerlinNoise oct = new PerlinNoise(seed, f);
for(int y = 0; y < Main.csY; y++) {
for(int x = 0; x < Main.csX; x++) {
noise[x][y] = (noise[x][y] + oct.getInterpolatedNoise(x * f, y * f)) * (float)Math.pow(p, z); //<- pumps out numbers between -1.0 and 1.0
}
}
}
return noise;
}
```

Sorry for the giant code dump there. The code all works when I run it, but I don't get Perlin noise. I just get this:

This is more of blury, blended noise than anything else. I get very similar results even when I add more octaves and/or ramp up the persistence. I used this article as a reference for building the code (and also this one). So if anyone has any ideas as to why this isn't working, please comment/answer. Thanks!

for better help sooner, post an SSCCE.– Andrew Thompson Nov 30 '12 at 0:55