Get rid of ComponentMatrix and higher-order ComponentArrays?
#258
Comments
|
For what it's worth, I understand that higher-dimensional By the way, @jonniedie, huge thanks for this package. I absolutely love it. If I hadn't found it, I would have tried to develop something similar myself (likely with much worse results). |
|
I'm not using component matrix at the moment, although I do like the ability to do block index matrixes. is it possible to classify ComponentMatrix as an experimental feature with limited support? |
|
It's an interesting proposal and one I've considered regularly due to how many problems it's caused over the years. I don't think I could remove it at this point, though. Especially because I personally use it on my own work (like @e271828e, I use it controls work as the state/control jacobians from the linearization of our ComponentArray-based nonlinear sim can be accessed by their blockwise components). But maybe designating it as an experimental feature is a good idea at this point as I've haven't had much time to respond to issues lately. |
|
Thanks for your answers! As I suspected, there are few people using this functionality but it is important to them. Marking it as experimental would probably be wise. The main reason I am asking is because I'm developing DifferentiationInterface.jl, which has bindings for every single autodiff package... as long as you use arrays. For anything more complicated, I recommend putting everything inside a |
|
Thanks for the effort to track down the MuseInference usage and tagingg me so I see this. Fwiw if you could see private repos youd find a bunch more usage and that one overload probably undersells how much ComponentMatrix gets used even in that package, lots of the arrays flowing through there are ComponentMatrices. Mainly in the context of covariance matrices with parameters in each dimension labeled. So Id love it this could be kept around, I use it alot, even if ocassionaly theres papercuts. (Echoing that this package is amazing, easily one of my top 5 Julia usability packages) |
|
Yeah I forgot to emphasize it but I obviously am a huge fan of ComponentArrays too! |
|
@gdalle if there is somebody who wants to make a conceited effort to fix/reimagine ComponentMatrix, that could resolve this problem |
|
Of course but I don't think it will be me unfortunately. The reason I suggested a clean slate was because I thought |
|
Thanks for pinging me on this discussion. Yes, I'm a big fan of @gdalle I was able to fix (I think) the issue with |
|
A counter-proposal: instead of getting rid of
"specially" as they are now, but have everything else return plain arrays. So, for example, we would expect The motivation: my use case for ComponentArrays is to keep track of inputs and outputs of functions that will be passed to ForwardDiff.jl or other AD libraries, which require one array input and one array output. The functions I pass will, at the beginning, unpack the inputs based on ComponentArray names and then write the outputs into the output ComponentArray at the end. In between, all the ComponentArray functionality isn't necessary. For example: function f!(Y, X)
# unpack inputs
a = @view X[:a]
b = @view X[:b]
# Do something with a and b
# write outputs to Y
@view(Y[:c]) .= c
@view(Y[:d]) .= d
return nothing
endOne of the downsides of this proposal is that we couldn't use the adjoint trick to create julia> x
ComponentVector{Int64}(a = 1, b = [2, 3], c = [4, 5])
julia> y
ComponentVector{Int64}(d = 6, e = [7, 8, 9])
julia> J = ComponentMatrix(getdata(y) .* getdata(x)', getaxes(y)..., getaxes(x)...)
4×5 ComponentMatrix{Int64} with axes Axis(d = 1, e = ViewAxis(2:4, Shaped1DAxis((3,)))) × Axis(a = 1, b = ViewAxis(2:3, Shaped1DAxis((2
,))), c = ViewAxis(4:5, Shaped1DAxis((2,))))
6 12 18 24 30
7 14 21 28 35
8 16 24 32 40
9 18 27 36 45
julia> Obviously this would be a very breaking change. But I personally would much prefer it to removing |
|
Ah, another downside would be that code like the ODE example in the docs https://jonniedie.github.io/ComponentArrays.jl/dev/examples/ODE_jac/ wouldn't work anymore. I'm not sure how the |
|
I used it to get AD working but once I needed sparse matrices I abandoned it again and wrote a bespoke version instead. r1,c1,v1 = findnz(ŝ_to_ŝ₃)
coordinates = Tuple{Vector{Int}, Vector{Int}}[]
push!(coordinates,(r1,c1))
dimensions = Tuple{Int, Int}[]
push!(dimensions,size(ŝ_to_ŝ₃))
push!(dimensions,size(C))
values = vcat(v1, vec(collect(-C))) |
This is a very disruptive proposition, I know, but hear me out. The reason I'm suggesting it is because higher-order
ComponentArrays areBasefrom doing its jobStill a bit buggy
For as long as I can remember, the doc has stated:
Indeed,
ComponentMatrixgives rise to a number of issues likeIndexing
ComponentMatrixwithFlatAxiscomponents #248Concatenation
reduce(hcat, ...method #113Linear algebra operations
invanddiagetc fromLinearAlgebra? #187 (comment)Basically, as soon as we touch matrices, the number of necessary overloads grows out of control, and no one has time to play whack-a-mole.
Not widely used
If we take a look at the search
https://github.com/search?q=language%3AJulia+ComponentMatrix&type=code
and exclude forks, we find exactly 4 repos where
ComponentMatrixis used:In addition, @vpuri3 and @dingraha have recently submitted PRs related to
ComponentMatrix, so perhaps they use it too.Keeping
Basefrom doing its jobIn several of the bugs outlined above, @mcabbott and I think that just removing the higher-order
ComponentArrays would allow functions fromBase(likestackorhcat) to take over and do the right thing. But that is still an untested hypothesis.Upsides of
ComponentMatrixOn the other hand it is true that this format has good things going for it. Most notably, the ability to index block by block, as demonstrated in the ODE example
The text was updated successfully, but these errors were encountered: