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I have a 3 by 3 matrix and would like to loop and multiply column 1 with all other columns but not itself and also column 2 with other columns but not itself and column 3 with other columns but not itself.
x11 = [1 2 3; 4 5 3; 2 8 3];
[m12, n12] = size(x11);
for i = 1:m12
for j = 1:n12
x1x1(i, j)=x11(i, j).*x11(i, j)
end
end

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Star Strider
Star Strider le 29 Mar 2018

0 votes

Try this:
x11 = [1 2 3; 4 5 3; 2 8 3];
[m12, n12] = size(x11);
for k1 = 1:n12
x11t = x11; % Copy ‘x11’
idx = setdiff(1:n12, k1) % Columns To Be Multiplied
x11t(:,idx) = bsxfun(@times, x11(:,idx), x11(:,k1)) % Assign Multiplied ‘Columns To Be Multiplied’ To Appropriate Columns Of ‘x11t’
x1x1(:,:,k1) = x11t; % Store In Output Array
end
It appears to do what you want.

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Mahmoud Solomon
Mahmoud Solomon le 29 Mar 2018
Thanks for the respond but I am not getting the desire result. The resulting matrix should look like this [2 6 3; 20 15 12; 16 24 6]. Again, column 1 multiplies columns 2 and 3 and column 3 multiplies column 1.
Star Strider
Star Strider le 29 Mar 2018
Change the ‘x1x1’ assignment to:
x1x1(:,k1) = x11t(:,rem(2*n12+k1,n12)+1) % Store In Output Array
That puts the correct columns of ‘x11t’ into ‘x1x1’ in each iteration.
Mahmoud Solomon
Mahmoud Solomon le 29 Mar 2018
Nice Sir. It works. Thanks again.
Star Strider
Star Strider le 30 Mar 2018
As always, my pleasure.
Mahmoud Solomon
Mahmoud Solomon le 3 Avr 2018
Sir... I need to generalize the solution to that problem. I have been trying but it's not working. What I want to achieve is when a column is used once, it should be removed from the original matrix thereby reducing the number of column by one. So, column 1 is used to multiple columns 2 to n. The next multiplication should be done between column 2 and 3 up to n, and in that order. Remember, nCr = n!/(n-r)!r!.
Star Strider
Star Strider le 3 Avr 2018
It seems that my original solution (link) will do what you want.
If you begin with an (NxM) matrix, you would end up with a (NxMxM) 3D matrix, or perhaps (Nx(M-1)xM), depending upon what you want. I know of no other way to do that.
Mahmoud Solomon
Mahmoud Solomon le 3 Avr 2018
Thanks again.
Star Strider
Star Strider le 3 Avr 2018
As always, my pleasure.

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Plus de réponses (2)

Elias Gule
Elias Gule le 29 Mar 2018

1 vote

Here you go:
[nr,nc] = size(x11);
for col = 1 : nc
col_data = x11(:,col);
col_prod = bsxfun(@times,col_data,x11(:,~all(ismember(x11,col_data))));
col_prod % you can store this in another array
end

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Mahmoud Solomon
Mahmoud Solomon le 29 Mar 2018
Thanks for the respond but I am not getting the desire result. The resulting matrix should look like this [2 6 3; 20 15 12; 16 24 6]. Again, column 1 multiplies columns 2 and 3 and column 3 multiplies column 1.
Elias Gule
Elias Gule le 29 Mar 2018
ok. I see what you mean. You are basically multiplying the columns of a matrix while ignoring the currently selected column.
x11 = [1 2 3; 4 5 3; 2 8 3];
[nr,nc] = size(x11);
for col = 1 : nc
col_data = x11(:,col);
tempX11 = x11(:,~all(ismember(x11,col_data)));
col_prod = tempX11(:,1).*tempX11(:,2);
col_prod % you can store this in another array
end

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Elias Gule
Elias Gule le 29 Mar 2018

0 votes

I believe this works as expected:
x11 = [1 2 3; 4 5 3; 2 8 3];
[nr,nc] = size(x11);
for col = 1 : nc
col_data = x11(:,col);
tempX11 = x11(:,~all(ismember(x11,col_data)));
col_prod = tempX11(:,1).*tempX11(:,2);
col_prod % you can store this in another array
end

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Mahmoud Solomon
Mahmoud Solomon le 29 Mar 2018
It also worked but the result is not in a matrix format. I will work that out. Anyway, thanks.
Yuanli Guo
Yuanli Guo le 13 Déc 2021
@Mahmoud Solomon Hi Mahmoud, do you know how to store these arrays in one matrix? I'm having the same problem now. Thank you^^

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