There's a nice double-for-loop you can use:

```
for (int i = x - 1; i <= x + 1; i++) {
for (int j = y - 1; j <= y + 1; j++) {
/* Skip the point itself! */
if (i == x && j == y) continue;
/* Process the location here */
}
}
```

This can also be generalized to only consider points adjacent by cardinal directions (i.e. directly up/down/left/right). To do that, you use a modification of the above for loop where you visit all eight neighbors, but then skip points that either

- Are identically where you are (both
`i == x`

and `j == y`

), or
- Have neither x nor y in common with the start point (both
`i != x`

and `j != y`

)

Interestingly, the above two tests can be rolled into one line: `((i == x) == (j == y))`

. This tests whether both values are the same (you're at the same place you started) or both values are different (you're on a diagonal):

```
for (int i = x - 1; i <= x + 1; i++) {
for (int j = y - 1; j <= y + 1; j++) {
if ((i == x) == (j == y)) continue;
/* Process the location here */
}
}
```

Of course, in both cases you should ensure that you're within the bounds of the world, but since I don't know how those are specified I'll leave it as an exercise to the reader. :-)

Hope this helps!