Alternative to using structs as reduction variables in parfor loop
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Tejas
am 27 Jan. 2021
Kommentiert: Tejas
am 28 Jan. 2021
My code initializes a struct (say init_s) with about 9 fields before going into a parfor loop of iterations (as s). Over a single iteration, the empty arrays in s are filled with data. I'd like to add these arrays together, without having to create 9 different variables for each field. How could I go about doing that? Here is a minimum working example:
init_s = struct('f1',ones(10,1),'f2',zeros(10,1),'f3',50*ones(15,1))
parfor iter = 1:10
s = init_s;
s.f1 = s.f1 * 2;
s.f2 = s.f2 + 5;
s.f3 = s.f3 - 1;
end
I'd like to add the generated arrays individually (s.f1 over all iter, s.f2 over all iter, etc.) so that I can average them later. How can I do that without having to create a lot of variables? Or if I have to, how do I access them in a loop using fieldnames?
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Walter Roberson
am 27 Jan. 2021
s(1:2) = struct('f1',ones(10,1),'f2',zeros(10,1),'f3',50*ones(15,1))
sc = struct2cell(s(:))
totals = arrayfun(@(R) sum(cat(3,sc{R,:}),3), (1:size(sc,1)).', 'uniform', 0)
struct_total = cell2struct(totals, fieldnames(s), 1)
3 Kommentare
Walter Roberson
am 28 Jan. 2021
If you need to know the value of the total up to this point, then you cannot do that with parfor, as it implies that order is important, but parfor cannot promise any particular order.
If you do not need to know the total until after the parfor, then store the values and do the total afterwards.
init_s = struct('f1',ones(10,1),'f2',zeros(10,1),'f3',50*ones(15,1));
results = struct2cell(structfun(@(x) x*0,init_s,'un',0));
parfor iter = 1:10
s = init_s;
s.f1 = s.f1 * 2;
s.f2 = s.f2 + 5;
s.f3 = s.f3 - 1;
all_s(iter,1) = s;
end
sc = struct2cell(all_s(:));
totals = arrayfun(@(R) sum(cat(3,sc{R,:}),3), (1:size(sc,1)).', 'uniform', 0);
struct_total = cell2struct(totals, fieldnames(all_s), 1);
The code was designed to not care about whether all_s is Nx1 or 1xN or NxM or even higher dimension, as long as the individual arrays in the fields are vectors or 2D. It would, however, need a small change if the fields could be higher dimensional. Though if you care about the shape of all_s then afterwards
struct_total = reshape(struct_total, size(all_s));
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