Notice that your `index_to_coordinates`

takes `[3, 3]`

(in addition to the flattened index `3`

) as an argument, but that is redundant. The information you need is that each line in the matrix is of length `3`

, and that the flattened index is `3`

.

```
3.divmod(3).reverse # => [0, 1]
```

`divmod`

gives you a pair the quotient and the remainder. Since you are expecting the order: x-coordinate (remainder) then y-coordinate (quotient), you need `reverse`

to flip the order.

**Edited according to change in the question**

Note: I assume ruby 1.9 in the following. I do not want to bother with ruby 1.8. If necessary, please translate it to ruby 1.8 on your own. It should be easy.

Suppose you have a structure:

```
[
[
[0, 1, 2, 3]
[4, 5, 6, 7]
[8, 9, 10, 11]
]
[
[12, 13, 14, 15]
[16, 17, 18, 19]
[20, 21, 22, 23]
]
]
```

so that the size of this structure is represented as [2, 3, 4]. In general, we can express the size as an array `sizes`

. You can convert this into an array `flattened`

that represents the size of each dimension when the whole structure is flattened upto that dimension:

```
flattened = sizes.dup.drop(1)
(1...flattened.length).reverse_each{|i| flattened[i-1] *= flattened[i]}
```

With the particular example:

```
flattened # => [12, 4]
```

This means that the largest cycle is 12, the next is 4. Suppose you want the coordinate of `7`

. In order to get that, you do:

```
index = 7
coordinate = flattened.each_with_object([]) do |size, array|
quotient, index = index.divmod(size)
array.push(quotient)
end
coordinate.push(index)
```

This will give you:

```
coordinate # => [0, 1, 3]
```