There are some problems with 2 dimensional `Arrays`

the way you implement them.

```
a= [[1,2],[3,4]]
a[0][2]= 5 # works
a[2][0]= 6 # error
```

`Hash`

as `Array`

I prefer to use `Hashes`

for multi dimensional `Arrays`

```
a= Hash.new
a[[1,2]]= 23
a[[5,6]]= 42
```

This has the advantage, that you don't have to manually create collumns or rows. Inserting into hashes is almost O(1), so there is no drawback here, as long as your `Hash`

does not become too big.

You can even set a default value for all not specified elements

```
a= Hash.new(0)
```

So now about how to get subarrays

```
(3..5).to_a.product([2]).collect { |index| a[index] }
[2].product((3..5).to_a).collect { |index| a[index] }
```

`(a..b).to_a`

runs in O(n). Retrieving an element from an `Hash`

is almost O(1), so the collect runs in almost O(n). There is now way to make it faster than O(n), as copying n elements always is O(n).

`Hashes`

can have problems when they are getting too big. So I would think twice about implementing a multidimensional `Array`

like this, if I knew my amount of data is getting big.

`x[3..8].each{|a|a[6] = 'something'}`

is to ugly for you. – complistic Jan 20 '15 at 1:35