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How to calculate diagonal for NxN matrix ?

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Lily
Lily le 18 Sep 2012
Hi
I'm trying to calculate the sum diagonal from a square matrix (size NxN). For example: A = [1 2 3 4; 5 6 7 8; 9 0 1 2; 3 4 5 6]; %square matrix Then if you would rotate the matrix by 45 degrees and take sum of the rotated martix. Like: imrotate(A,45)
What I'm trying to do is to find the diagonal sum of A. Therefore I want to construct a vector of size 1x(N+2) or for this A = [1 2 3 4; 5 6 7 8; 9 0 1 2; 3 4 5 6] it would be an vector of size 1x6.
Could you please help me? :)
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Jan
Jan le 18 Sep 2012
Do you mean 90 deg instead of 45 deg?
Honglei Chen
Honglei Chen le 18 Sep 2012
I don't quite get it. Are you saying you want the sum along each diagonal? But if so, why is the resulting vector 1x(N+2)? Shouldn't it be 1x(2*N-1)? Could you post the desired answer for your sample matrix?

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Réponse acceptée

Thomas
Thomas le 18 Sep 2012
YOu could use
sum(diag(A))
this is essentially
trace(A)
What does rotation by 45 mean
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Lily
Lily le 18 Sep 2012
Modifié(e) : Lily le 18 Sep 2012
Like if I would imrotate(A,45)
Thomas
Thomas le 18 Sep 2012
IF you use imrotate(A,45) you get a 9x9 matrix and not the 4x4 matrix you started with..

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Wayne King
Wayne King le 18 Sep 2012
Modifié(e) : Wayne King le 18 Sep 2012
Just use trace()
trace(A)
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Lily
Lily le 18 Sep 2012
Thx for the answer, but f I use trace(A) I only get the diagonal of the matrix A.
Wayne King
Wayne King le 18 Sep 2012
It's easy to say in general what an NxN matrix looks like for a multiple of 90 degrees, but what does it look like for 45? For N>3, I'm not sure what that looks like without padding the matrix with zeros like imrotate

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