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I am currently using the Toolbox Graph on the Matlab File Exchange to calculate curvature on 3D surfaces and find them very helpful (http://www.mathworks.com/matlabcentral/fileexchange/5355). However, the following error message is issued in “compute_curvature” for certain surface descriptions and the code fails to run completely:

> Error in ==> compute_curvature_mod at 75
> dp = sum( normal(:,E(:,1)) .* normal(:,E(:,2)), 1 );
> ??? Index exceeds matrix dimensions.

This happens only sporadically, but there is no obvious reason why the toolbox works perfectly fine for some surfaces and not for others (of a similar topology). I also noticed that someone had asked about this bug back in November 2009 on File Exchange, but that the question had gone unanswered. The post states

"compute_curvature will generate an error on line 75 ("dp = sum( normal(:,E(:,1)) .* normal(:,E(:,2)), 1 );") for SOME surfaces. The error stems from E containing indices that are out of range which is caused by line 48 ("A = sparse(double(i),double(j),s,n,n);") where A's values eventually entirely make up the E matrix. The problem occurs when the i and j vectors create the same ordered pair twice in which case the sparse function adds the two s vector elements together for that matrix location resulting in a value that is too large to be used as an index on line 75. For example, if i = [1 1] and j = [2 2] and s = [3 4] then A(1,2) will equal 3 + 4 = 7.

The i and j vectors are created here:
i = [face(1,:) face(2,:) face(3,:)];
j = [face(2,:) face(3,:) face(1,:)];

Just wanted to add that the error I mentioned is caused by the flipping of the sign of the surface normal of just one face by rearranging the order of the vertices in the face matrix"

I have tried debugging the code myself but have not had any luck. I am wondering if anyone here has solved the problem or could give me insight – I need the code to be sufficiently general-purpose in order to calculate curvature for a variety of surfaces, not just for a select few.

Thanks in advanced.

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Have you tried e-mailing the author? gabriel.peyre 'at' ceremade.dauphine.fr –  bla Oct 17 '12 at 6:44
    
I did and am waiting to hear back. However I wanted to hedge my bets on Stack Overflow. –  user1751144 Oct 17 '12 at 15:30

1 Answer 1

The November 2009 bug report on File Exchange traces the problem back to the behavior of sparse:

S = SPARSE(i,j,s,m,n,nzmax) uses the rows of [i,j,s] to generate an
m-by-n sparse matrix with space allocated for nzmax nonzeros.  The
two integer index vectors, i and j, and the real or complex entries
vector, s, all have the same length, nnz, which is the number of
nonzeros in the resulting sparse matrix S .  Any elements of s 
which have duplicate values of i and j are added together.

The lines of code where the problem originates are here:

i = [face(1,:) face(2,:) face(3,:)];
j = [face(2,:) face(3,:) face(1,:)];
s = [1:m 1:m 1:m];
A = sparse(i,j,s,n,n);

Based on this information removal of the repeat indices, presumably using unique or similar, might solve the problem:

[B,I,J] = unique([i.' j.'],'rows');
i = B(:,1).';
j = B(:,2).';
s = s(I);

The full solution may look something like this:

i = [face(1,:) face(2,:) face(3,:)];
j = [face(2,:) face(3,:) face(1,:)];
s = [1:m 1:m 1:m];
[B,I,J] = unique([i.' j.'],'rows');
i = B(:,1).';
j = B(:,2).';
s = s(I);
A = sparse(i,j,s,n,n);

Since I do not have a detailed understanding of the algorithm it is hard to tell whether the removal of entries will have a negative effect.

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