# In Julia, Transpose operator

I am trying to use a transpose operator over a vector in order to perform am element-wise addition. For example, I want to add a column vector `a = [a1;a2;a3]` to a row vector `b = [b1,b2]` I should get matrix `M = a+b = [a1+b1, a1+b2; a2+b1, a2+b2; a3+b1, a3+b2]`. In MATLAB it is equivalent (if both vectors are row vectors) `M = a.'+b`

I am trying to get the same in Julia but here is the problem, there is no `.'` operator in Julia starting from 1.0 version. There is the transpose operator which does not work in broadcasting mode. The adjoint operator is not Valid for me because I work with complex numbers.

``````a = Vector{ComplexF64}([1+3im,2])
b = Vector{ComplexF64}([0,0,0])
Z = zeros(ComplexF64,3,2)
G = zeros(ComplexF64,3,2)

@. Z = b + a'           # Works but takes the complex conjugate
@. Z = b + transpose(a) # DOES NOT WORK!!!! The error is " DimensionMismatch("array could not be broadcast to match destination") "
Z = b .+ transpose(a)   # Works but not efficient
@. Z = b + conj(a')

``````

The third case `Z = b .+ transpose(a)` is not efficient because it makes 2 loops first one for addition `b .+ transpose(a)`, than it runs the second loop one for the assignment of `b .+ transpose(a)` to `Z`. While the other 3 cases do it within one loop. So which is the fastest way? And why transpose doesn't within Broadcasting?

You can just type:

``````a' .+ b
``````

Example

``````julia> a = ComplexF64.([1+3im,2])
2-element Array{Complex{Float64},1}:
1.0 + 3.0im
2.0 + 0.0im

julia> b = ComplexF64.([10,20,30])
3-element Array{Complex{Float64},1}:
10.0 + 0.0im
20.0 + 0.0im
30.0 + 0.0im

julia> a' .+ b
3×2 Array{Complex{Float64},2}:
11.0-3.0im  12.0+0.0im
21.0-3.0im  22.0+0.0im
31.0-3.0im  32.0+0.0im
``````

I understand that you are worried that there is a performance penalty here. However in Julia, opposed to Matlab, `transpose` does not materialize data. It just provides you different indexing of the reference to the data.

• This doesn't prevent the complex conjugate from being taken... Feb 22 at 2:48