I am not entirely sure what your problem is, but I will try to explain the indexing to you:

What you create in your example is a three dimensional array (or a nested array if you will).

I'm sure you understand simple arrays like the following

```
---x---
int a[3] = {1, 2, 3};
```

Now when you request `a[x]`

the x will determine which position of the array is chosen.

A two dimensional array is merely an array of arrays

```
---------y--------
---x--- ---x---
int b[2][3] = {{1, 2, 3}, {4, 5, 6}};
```

When you request `b[y][x]`

the y will determine which of the two one dimensional arrays is chosen and then the x tells you which position of that array.

A three dimensional array is only taking this one level higher: an array of arrays of arrays

```
----------------------z--------------------
---------y--------- ---------y---------
---x--- ---x--- ---x--- ---x----
int c[2][2][3] = {{{1, 2, 3}, {4, 5, 6}}, {{1, 2, 3}, {4, 5, 6}} };
```

Now a request to `c[z][y][x]`

goes to the z-th 2d-array, then to the y-th 1d-array of that 2d-array and then to the x-th position in this array.

The requests to `c[z]`

or `c[z][y]`

will only result in addresses of arrays and not yield any actual int values.

`a[i]`

is`int **`

type`a[i][j]`

is`int *`

type and`a[i][j][k]`

is`int`

type so all three are different – Omkant Nov 26 '12 at 10:36