# Slice array of arrays in Julia

In Julia, I have an array of arrays, say:

``````    arr = Array(Array{Float64,1},3)
for i = 1:3
arr[i] = [i,-i]
end
``````

Now:

``````   arr[:][1]
2-element Array{Float64,1}:
1.0
-1.0
``````

and

``````   arr[1][:]
2-element Array{Float64,1}:
1.0
-1.0
``````

It seems the only way to get the first 'column' is by comprehension

``````    pluses = [arr[i][1] for i=1:length(arr)]
3-element Array{Any,1}:
1.0
2.0
3.0
``````

Is that indeed the only way? Do I lose in speed by running a for loop instead of some 'vectorized' version, or does it not matter in Julia due to different compiler?

• Do you really need an Array of Arrays? Why not just use a Matrix? In general Julia does not have many facilities for working with nested Arrays; you should try to use multidimensional Arrays wherever possible. You can slice a Matrix whichever way you want :) – James Porter Jun 18 '14 at 2:31
• There is probably a way around it. The structure arises in situations as in this tutorial, where a type is defined which has one field of type `Vector`. e.g. `type Body{T}\n\tvelocity::Vector{T}\n\tend`. Then an instance of `Body` has items appended to the `velocity` field while a differential equation is being solved. I'm still digesting this, so no ideas on how to implement the same with multidimensional arrays... – nikosd Jun 18 '14 at 4:06

This cannot be done with `[]` indexing. Each `[]` operation is an independent operation (calling getindex). You have tried "slicing" the nested arrays by calling `arr[:][1]`. There are two independent operations here: first, `(arr[:])`, and then `(arr[:])[1]`. But in this case `arr[:] == arr`! Similarly for `arr[1][:]` — you're simply getting all the elements of the first vector. That's why the two are returning the same thing.
With regards to your comment, the reason they used a vector of vectors in this case instead of a adding columns to a multidimensional array is that currently only vectors can grow. You can copy your Vector of Vectors into a two dimensional array by calling `hcat(arr...)`, but if your vectors are very large (millions of elements) the copy itself will be fairly slow.
In Julia 0.5 or later, you can do `getindex.(arr, 1)` to extract the first element of each array in `arr`. This is quite efficient, especially because it can fuse with other elementwise operations using the "dot call" syntax.