I can never remember how to do this this.
How can go
(n1)) to a Column Matrix (size (n1,1))? (n1,n2)) to a Array{T,3} (size (n1,n2,1))? (n1,n2,n3)) to a Array{T,4} (size (n1,n2,n3, 1))? I want to know to take Array and use it to define a new Array with an extra singleton trailing dimension.
I.e. the opposite of squeeze
You can do this with reshape.
You could define a method for this:
add_dim(x::Array) = reshape(x, (size(x)...,1))
julia> add_dim([3;4])
2×1 Array{Int64,2}:
3
4
julia> add_dim([3;4])
2×1 Array{Int64,2}:
3
4
julia> add_dim([3 30;4 40])
2×2×1 Array{Int64,3}:
[:, :, 1] =
3 30
4 40
julia> add_dim(rand(4,3,2))
4×3×2×1 Array{Float64,4}:
[:, :, 1, 1] =
0.483307 0.826342 0.570934
0.134225 0.596728 0.332433
0.597895 0.298937 0.897801
0.926638 0.0872589 0.454238
[:, :, 2, 1] =
0.531954 0.239571 0.381628
0.589884 0.666565 0.676586
0.842381 0.474274 0.366049
0.409838 0.567561 0.509187
widen is a confusing name for this operation because it already means something very different. Some people might read that code expecting it to be applied to each element of the array, as in widen.(A).add_dim. though not 100% happy with that either. Do you have a suggestion for the name? I know TensorFlow uses expand_dims(x, insert_at_ind) but that has a second argument; rather than just using trailing.
rpad(M,3) will make Array M into a 3-dim Array by adding length 1 dimensions on the right (lpad similarly on the left). it overloads methods for strings, but sort of similar action. Definition could be something like: Base.rpad(m::AbstractArray,n::Integer) = reshape(m,size(m)...,[1 for i=1:n-ndims(m)]...)Another easy way other than reshaping to an exact shape, is to use cat and ndims together. This has the added benefit that you can specify "how many extra (singleton) dimensions you would like to add". e.g.
a = [1 2 3; 2 3 4];
cat(ndims(a) + 0, a) # add zero singleton dimensions (i.e. stays the same)
cat(ndims(a) + 1, a) # add one singleton dimension
cat(ndims(a) + 2, a) # add two singleton dimensions
etc.
UPDATE (julia 1.3). The syntax for cat has changed in julia 1.3 from cat(dims, A...) to cat(A...; dims=dims).
Therefore the above example would become:
a = [1 2 3; 2 3 4];
cat(a; dims = ndims(a) + 0 )
cat(a; dims = ndims(a) + 1 )
cat(a; dims = ndims(a) + 2 )
etc.
Obviously, like Dan points out below, this has the advantage that it's nice and clean, but it comes at the cost of allocation, so if speed is your top priority and you know what you're doing, then in-place reshape operations will be faster and are to be preferred.
reshape methods are 40x times faster on a trivial benchmark with almost no allocation.
cat command has changed (not altogether surprising, julia kept changing syntax like underwear back then). I'll update with the new syntax.
reshape for that.Try this
function extend_dims(A,which_dim)
s = [size(A)...]
insert!(s,which_dim,1)
return reshape(A, s...)
end
the variable extend_dim specifies which dimension to extend
Thus
extend_dims(randn(3,3),1)
will produce a 1 x 3 x 3 array and so on.
I find this utility helpful when passing data into convolutional neural networks.
Some time before the Julia 1.0 release a reshape(x, Val{N}) overload was added which for N > ndim(x) results in the adding of right most singleton dimensions.
So the following works:
julia> add_dim(x::Array{T, N}) where {T,N} = reshape(x, Val(N+1))
add_dim (generic function with 1 method)
julia> add_dim([3;4])
2×1 Array{Int64,2}:
3
4
julia> add_dim([3 30;4 40])
2×2×1 Array{Int64,3}:
[:, :, 1] =
3 30
4 40
julia> add_dim(rand(4,3,2))
4×3×2×1 Array{Float64,4}:
[:, :, 1, 1] =
0.0737563 0.224937 0.6996
0.523615 0.181508 0.903252
0.224004 0.583018 0.400629
0.882174 0.30746 0.176758
[:, :, 2, 1] =
0.694545 0.164272 0.537413
0.221654 0.202876 0.219014
0.418148 0.0637024 0.951688
0.254818 0.624516 0.935076
reshape(x, Val{N}) documented? I can't find it.