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Suppose I have this kind of matrix:

1 2 3
3 2 3
4 5 6
7 8 9
3 2 3

How do I add a diagonal of ones into this? Is there an easy way? To show what I mean:

1 2 3
3 1 3
4 5 1
1 8 9
3 1 3
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so you mean 'replace' and not an + operation, right? –  Parag S. Chandakkar Nov 14 '13 at 19:04
    
Yes I mean replace. –  Paulinchen2 Nov 14 '13 at 19:06

4 Answers 4

up vote 5 down vote accepted

You can do this quite easily with linear indexing, you don't even need reshape!

[r, c] = size(m);
m(1:c:end) = 1;
m =

     1     2     3
     4     1     6
     7     8     1
     1    11    12
    13     1    15

If r < c, this is the best I got:

if r < c
   n = m';
   n(1:r:end) = 1;
   m = n';
else
   m(1:c:end) = 1;
end
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1  
what if r < c ? –  jkshah Nov 14 '13 at 19:42
    
@jkshah: Honestly, I can't find a way to do that and avoid if using just linear indexing. I updated the answer. If you have a better suggestion, shoot! =) –  Stewie Griffin Nov 14 '13 at 20:02
    
+1 Well seen! Just steps of c –  Luis Mendo Nov 14 '13 at 21:46
1  
@RobertP. +1. seems perfect! I didn't have better solution, but was trying to make it complete. Appreciate your thinking. –  jkshah Nov 15 '13 at 5:10
    
@RobertP. You don't even need the row number: why not just m(1:size(m,2):end) = 1? Note, however, that your solution only works for r >= c –  Luis Mendo Nov 15 '13 at 12:18

This is a general solution, using linear indexing and modulo operations:

[R C] = size(m);
ii = 1:R;
jj = mod(ii,C);
jj(jj==0) = C;
m(ii+(jj-1)*R) = 1; %// or m(sub2ind([R C],ii,jj)) = 1;

For example,

m =

     1     2     3
     4     5     6
     7     8     9
    10    11    12
    13    14    15
    16    17    18
    19    20    21

gets transformed into

m =

     1     2     3
     4     1     6
     7     8     1
     1    11    12
    13     1    15
    16    17     1
     1    20    21
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s=min(size(m))
m(1:s,1:s)=eye(s)+(~eye(s).*m(1:s,1:s))
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I tried this on m=[1,2,3;4,5,6;7,8,9;10,11,12;13,14,15] but only the upper diagonal was replaced. –  Paulinchen2 Nov 14 '13 at 19:17

If you want a shorter version without comparing the number of rows to the number of columns you can try this (Assuming that you want to make the diagonal elements of an arbitrary matrix M equal to 1):

M(logical(speye(size(M)))) = 1 
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