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How to recover a square matrix from its upper triangular cell part?

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Xh Du
Xh Du on 27 Jul 2017
Commented: Xh Du on 28 Jul 2017
Hi all,
I'd like to compute the upper triangular part only for a symmetric matrix in a block by block way. After some operations I got this:
K>> tempBlk{:}
ans =
[6x6 double] [6x5 double] [6x5 double] [6x5 double]
[] [5x5 double] [5x5 double] [5x5 double]
[] [] [5x5 double] [5x5 double]
[] [] [] [5x5 double]
The cell blocks in the diagonal line here are full, symmetric, and the non-diagonal cell blocks are full, non-symmetric. The entire symmetric matrix result should be 21 by 21, which has the length and width of 6+5+5+5. I'd like to fill the empty cells (these [ ]) with zeros, then use cell2mat to transform it back to scalar matrix, then use triu to take only the upper triangular part.
Any idea of how to do this? Thanks!

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Accepted Answer

Matt J
Matt J on 27 Jul 2017
Edited: Matt J on 27 Jul 2017
There's no reason to fill the [] cells with zeros. You can fill them with anything, since they will eventually be overwritten with zeros by triu. I would therefore do as follows:
idx=cellfun('isempty', yourCellArray);
C=cellfun(@transpose,yourCellArray.','uni',0);
yourCellArray(idx)=C(idx);
result = triu(cell2mat(yourCellArray))
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Matt J
Matt J on 27 Jul 2017
Probably, but it will amount to a 25% saving at best. It would be better if, instead of cell2mat, you just allocated the final matrix at the very beginning and wrote into the blocks.

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