5

Given some array with dimensions N1, N2, N3, is there any way in Julia to get the minimum and maximum (the range) of this multidimensional array for the different levels of a given axis?

For example, say we have an array my_array with size (10, 3, 100) (meaning N1 = 10, N2 = 3, N3 = 100 to keep consistency with the terminology used above). I want to get the minimum and maximum values for the three different 'levels' of N2. Basically, I want some more concise code that does the following:

N2_1_range = (minimum(my_array[:,1,:]), maximum(my_array[:,1,:])
N2_2_range = (minimum(my_array[:,2,:]), maximum(my_array[:,2,:])
N2_3_range = (minimum(my_array[:,3,:]), maximum(my_array[:,3,:])

So basically, you're getting the minimum (respectively, maximum) across the entire n-dimensional sub-array that's singled out by index operations like my_array[:,n,:], for each of the levels n of the desired dimension (in this case, dimension N2).

I want (nicer) code that will generalize this operation to any desired dimension N of any multi-dimensional array, basically storing the ranges for the different 'settings/levels' of that dimension.

Improve this question

2 Answers 2

Reset to default
4

You want extrema(my_array, dims = 1) (or 2, or 3), see the documentation for extrema.

You can then use mapslices to specify the dimensions in your call that should have colons:

julia> a = rand(1:10, 10, 3, 100);


julia> mapslices(extrema, a, dims = [1, 3])
1×3×1 Array{Tuple{Int64,Int64},3}:
[:, :, 1] =
 (1, 10)  (1, 10)  (1, 10)

Note that there is currently an open issue about the performance of extrema being worse than calling minimum and maximum here, so you might want to check whether this causes performance issues.

Improve this answer
Sign up to request clarification or add additional context in comments.

5 Comments

I think your link was truncated. Maybe this one: github.com/JuliaLang/julia/issues/31442
I think this is along the right track, except this appears to be getting the extremes along dims = 2 for each of the levels of the remaining dimensions (dims 1 and 3). Do you see the distinction between that and what I'm asking? I want the minimum across each sub-array (dimensions (3,1,3) in this case). I don't want the extreme operation to be broadcast along each of the different levels of the other axes. Perhaps the only way to do what I'm suggesting is by reshaping the original array first (collapsing in your example dimensions 1 and 3 togther) and then calling extrema.
To be more specific, the output should just a single list/array of 3 Tuples{Float64,64} not 3 sets of 3 sets of tuples. I want to 'squash' out the remaining dimensions in the minimum/maximum operations.
Sorry, misread - have now edited to what I believe should answer your question.
thanks, that works! and good to know about those functions in general
2

Does eachslice work for you?

julia> a = rand(10,3,100)
julia> b = [extrema(c) for c in eachslice(a,dims=2)]
3-element Array{Tuple{Float64,Float64},1}:
 (0.00019926768773892434, 0.9978490630494796)
 (0.00035292069651315927, 0.9998983532542789)
 (0.00012135841634353106, 0.9997039922122202)
Improve this answer

Comments

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge you have read our privacy policy.

Start asking to get answers

Find the answer to your question by asking.

Ask question

Explore related questions

See similar questions with these tags.