How to step through vector permutations in a parallel loop, without generating all permutations in advance?

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I need a paralleised loop to step through all permutations of 1:N
Even though for some values of N it is computationally feasible, N may be too large to precompute all permutations and then step through in a simple parfor loop. It takes up too much memory. A simple solution for one worker is to just use something like p = nextperm(p), to get the next permutation in, say, lexigoraphic order. But to execute it in parallel I need a mutually exclusive resource, something like p = mutexNextPerm(), which returns the next permutation not yet processed by any worker. Only a single copy of the function must exist to serve all workers; the function mutexNextPerm() can then call p = nextperm(p) and keep track of the last p served.
Can this be done in MATLAB?
  2 Comments
David Goodmanson
David Goodmanson on 15 Oct 2022
Hi Shlomo,
I take it that the nextperm function is considered to be a given. Perhaps in mutexnextperm you could declare the most recent permutation p to be a persistent variable, and then each time that mutexnextperm is called, output nextperm(p) and update p with nextperm(p).
Shlomo Geva
Shlomo Geva on 15 Oct 2022
Thanks David,
The issue with parfor is that there will be private copies of mutexNextperm() - one in each worker thread; unless I misunderstand how it works. Persistent variables won't work. Each copy will have its own persistent variable p.
parfor supports only a limited set of reductions (like max, min, union, intersect, and some other).
I am essentially looking for a jail break... Maybe SPMD or something else?

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Accepted Answer

Bruno Luong
Bruno Luong on 15 Oct 2022
Edited: Bruno Luong on 15 Oct 2022
function getenumperm bellow enumerates the permutation of 1:n
n = 4;
for k=1:factorial(n) % or parfor
p = getenumperm(k, n)
... do something with p
end
p = 1×4
1 2 3 4
p = 1×4
1 2 4 3
p = 1×4
1 3 2 4
p = 1×4
1 4 2 3
p = 1×4
1 3 4 2
p = 1×4
1 4 3 2
p = 1×4
2 1 3 4
p = 1×4
2 1 4 3
p = 1×4
3 1 2 4
p = 1×4
4 1 2 3
p = 1×4
3 1 4 2
p = 1×4
4 1 3 2
p = 1×4
2 3 1 4
p = 1×4
2 4 1 3
p = 1×4
3 2 1 4
p = 1×4
4 2 1 3
p = 1×4
3 4 1 2
p = 1×4
4 3 1 2
p = 1×4
2 3 4 1
p = 1×4
2 4 3 1
p = 1×4
3 2 4 1
p = 1×4
4 2 3 1
p = 1×4
3 4 2 1
p = 1×4
4 3 2 1
function p = getenumperm(k, n)
% Get a permutation from enumerate number k
p = zeros(1,n);
i = 1:n;
f = factorial(n-1);
for j=n:-1:1
r = ceil(k/f);
k = mod(k-1, f)+1;
p(i(r)) = n-j+1;
i = i([1:r-1 r+1:n r]);
f = f/(j-1);
end
end

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