What does permute actually produce?
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Trying some calculations earlier, I have realised permute does not do what I thought it did. To clarify I did this
% code
test = rand(4,4,4,4) + rand(4,4,4,4)*1i;
test2a = zeros(4,4,4,4); test2b = zeros(4,4,4,4);
for a = 1:4
for b = 1:4
for c = 1:4
for d = 1:4
test2a(a,b,c,d) = test(a,b,d,c);
test2b(a,b,c,d) = test(b,a,c,d);
end
end
end
end
test3a = permute(test,[1,2,4,3]);
test3b = permute(test,[2,1,3,4]);
m1=max(test2a(:)-test3a(:))
m2=max(test2b(:)-test3b(:))
test2a = zeros(4,4,4,4); test2b = zeros(4,4,4,4);
for a = 1:4
for b = 1:4
for c = 1:4
for d = 1:4
test2a(a,b,c,d) = test(d,b,a,c);
test2b(a,b,c,d) = test(c,a,b,d);
end
end
end
end
test3a = permute(test,[4,2,1,3]);
test3b = permute(test,[3,1,2,4]);
m3=max(test2a(:)-test3a(:))
m4=max(test2b(:)-test3b(:))
m1 =
0
m2 =
0
m3 =
0.9525 + 0.5183i
m4 =
0.9293 - 0.7266i
clearly the first is the same but the latter is different. Is there some way to create the second variables (of form test2(a,b,c,d) == test(d,b,a,c) which involve two permutations ) just using permute on test?
Accepted Answer
the cyclist
on 20 Nov 2014
Isn't it
var2 = permute(var1,[3 2 4 1]);
?
3 Comments
the cyclist
on 20 Nov 2014
Here is the reasoning:
- The former dimension 3 is now dimension 1.
- The former dimension 2 is now dimension 2.
- The former dimension 4 is now dimension 3.
- The former dimension 1 is now dimension 4.
So, you see that new dimension [1 2 3 4] is old dimension [3 2 4 1].
That latter vector is the one you needed.
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