# What's the most efficient way to convert a Matrix{T} of size 1*N or N*1 in Julia to a Vector{T}?

What's the most efficient way to convert a Matrix{T} of size 1*N or N*1 in Julia to a Vector{T}?

For example, say I have

``````a = [1,3,5]
b = a'
``````

Both `a` and `b` are of type `Array{Int,2}` (i.e. `Matrix{Int}`). What are the most efficient ways to convert `a` and `b` to type `Array{Int,1}` (i.e. `Vector{Int}`)?

One approach is:

``````a_vec = [x::Int for x in a]
b_vec = [x::Int for x in b]
``````
-

You can use the `vec()` function. It's faster than the list comprehension and scales better with number of elements ;) For a matrix of 1000x1:

``````julia> const a = reshape([1:1000],1000,1);

julia> typeof(a)
Array{Int64,2}

julia> vec_a = [x::Int for x in a];

julia> typeof(vec_a)
Array{Int64,1}

julia> vec_aII = vec(a);

julia> typeof(vec_aII)
Array{Int64,1}
``````

6.41e-6 seconds # list comprehension

2.92e-7 seconds # vec()

-
One important thing to note about both `vec` and `reshape` is that they share memory with the underlying array for performance – that's why `vec` is so much faster than a comprehension, which creates a new array object, copying content. Thus, if you change `a[1]`, `v_aII[1]` will also change and vice versa, whereas `v_a[1]` will be unaffected. –  StefanKarpinski Jan 20 '13 at 16:48

I would tend to use `squeeze` to do this if the matrix is `1xN` or `Nx1`:

``````squeeze(ones(3, 1))
squeeze(ones(1, 3))
``````

Not sure if that's more efficient than using `vec` or `reshape`.

-
``````const a = reshape([1:1000],1000,1);