# How to convert an array of array into a matrix?

Suppose I want to apply a vector-valued function `phi` to a vector `x`:

``````phi(x, d) = [x.^i for i=0:d]    # vector-valued function
x = rand(7)                     # vector
y = phi(x, 3)                   # should be matrix, but isn't
``````

Now `y` should be a matrix, but it is an `4-element Array{Array{Float64,1},1}`, i.e. an array of arrays. Actually, I want `y` to be a matrix. Is the implementation of `phi` wrong? Or how do I convert it?

Thanks!

As you noted, you can concatenate an array of arrays `x` using `hcat(x...)`, but it's usually better to create a matrix to begin with instead. Two ways that you can do it in this case:

``````phi(x, d) = x.^((0:d)')
``````

As long as `x` is a vector, it will broadcast against the row matrix `(0:d)'`.

You can get the transpose result by transposing `x` instead of the range `0:d`.

2. Using a two-dimensional array comprehension:

``````phi(x, d) = [xi.^di for xi in x, di in 0:d]
``````

This will work as long as `x` is iterable. If `x` is an n-d array, it will be interpreted as if it were flattened first.

You can transpose the result by switching the order of the comprehension variables:

``````phi(x, d) = [xi.^di for di in 0:d, xi in x]
``````

Converting `phi`'s output to a matrix can be done as follows:

``````   y = hcat(phi(x, 3)...)
``````

or if you prefer the vectors to be rows, a transpose is needed:

``````   y = vcat([x' for x in phi(x, 3)]...)
``````

Alternatively, you can convert to a matrix within `phi` by defining it:

``````   phi(x, d) = hcat([x.^i for i=0:d]...)
``````

More generally you can also use the splat operator `...` with `hcat`:

``````X = [[1,2], [3, 4], [5,6]]
hcat(X...)
``````

gives a 2-by-3 matrix

``````1  3  5
2  4  6
``````