For every `x`

, there are 10 elements of `y`

. For every `y`

, there are 10 elements of `z`

. In this sense, `z`

is a sort of iterator that gives the smallest increments in your array. Every time `z`

increments 10*10 times, `x`

increments once:

```
//x = i/(dim(y)*dim(z)) % dim(x)
x = i/(10*10) % 10 //integer division
```

Similarly for `y`

, however `z`

only needs to increment 10 times for `y`

to increment.

```
//y = i/dim(z) % dim(y)
y = i/(10) % 10 //integer division
```

Finally, `z`

always increments whenever `z`

increments (that sounded stupid, but I was trying to follow my process from the other two. What I'm trying to say is that `z`

will always increment when the iterator increments).

```
//z = i % dim(z)
z = i % 10
```

Edit: `dim()`

is supposed to return the size of the specified dimension. It is poorly named in this example and I apologize for that.