# Difference between nx1 array and n-element array in Julia

In Julia if I define an array with 1 column and n rows it appears to instantiate a "n-element array", I do not understand how this is different from a nx1 array:

``````julia> a = [1 2 3]
1x3 Array{Int64,2}:
1  2  3

julia> b = [1;2;3]
3-element Array{Int64,1}:
1
2
3
``````

Confusingly, if I take the transpose twice of a n-element array the return result is a nx1 array:

``````julia> transpose(transpose(b))
3x1 Array{Int64,2}:
1
2
3
``````

This results in some unexpected (to me) behaviour like:

``````julia> size(b) == size(transpose(transpose(b)))
false
``````

My questions:

1. What is the difference between a nx1 array and an n-element array?
2. How can I create a `nx1` array without doing something like the double-transpose example I gave.
-

1. An `n`x1 or 1x`n` array is a 2-dimensional matrix (that just so happens to have only one row or column), whereas your n-element array is a 1-dimensional column vector.
2. I think the simplest way to create a `n`x1 array literal is taking the transpose of a row vector: `[1 2 3]'`. Going the other way, you can flatten any n-dimensional array to a 1-d vector using `vec`.
All that said, there's still a great deal of discussion about vector transposes on both the mailing lists and in the GitHub issues. Here's a great place to get started: Issue #2686: `ones(3) != ones(3)''`. Or for a much deeper discussion on related issues: Issue #3262: embed tensor-like objects as higher-dimensional objects with trailing singleton dimensions