Sparse matrix with diagonal zero and elements in every row/column

2 views (last 30 days)
Evelyn Salt
Evelyn Salt on 18 Aug 2017
Commented: Evelyn Salt on 22 Aug 2017
I'm trying to produce a sparse matrix that has zeros on the diagonal, but also has at least one element in each row and column.
With this code I get the first part, but I don't know how to make sure that each row and column have elements in them.
R = sprand(4,4,0.5);
r = 0 + (0.5 - 0)*rand(4,4);
A = full (R);
A(1:4+1:4*4)=0;
Nonz = nnz(A);
Diff = ceil(0.5*(4^2-4)) - Nonz;
B = find (A==0);
A=A';
B = find (A==0);
C = setdiff(B,1:4+1:4*4);
D = datasample(C,Diff,1,'Replace',false);
E=A;
for i = 1:length(D)
E(D(i)) = 1;
end
E=E';
E(find(E)) = r(find(E));
  2 Comments
KL
KL on 18 Aug 2017
Edited: KL on 18 Aug 2017
I'm trying to produce a sparse matrix that has zeros on the diagonal, but also has at least one element in each row and column ...
You already have that!?
>> A = 0 + (0.5 - 0)*rand(4,4)
A(1:4+1:4*4)=0
A =
0.2947 0.0229 0.1600 0.4296
0.4233 0.4000 0.4959 0.2969
0.0890 0.3980 0.2755 0.4307
0.1483 0.1979 0.0073 0.3885
A =
0 0.0229 0.1600 0.4296
0.4233 0 0.4959 0.2969
0.0890 0.3980 0 0.4307
0.1483 0.1979 0.0073 0
Evelyn Salt
Evelyn Salt on 18 Aug 2017
Sorry, you are right, I messed something up. Now I edited my code and you can see that I get the matrix E which doesn't necessarily have elements in every row and column.

Sign in to comment.

Sign in to answer this question.

Accepted Answer

Chris Perkins
Chris Perkins on 21 Aug 2017
Hi Evelyn,
The code below shows how to compute a sparse square matrix where each row and column have at least one non-zero value, given a dimension size.
It computes a sparse matrix, and then tests for whether the matrix meets the row and column conditions, generating a new matrix until it does, so the final matrix avoids bias from removing elements.
% Specify size of matrix
dim = 4;
% Compute probability for sparse matrix based on size of matrix
density = 1 - (1 - 1/(2^(1/dim)))^(1/(dim-1));
% Create sparse matrix
A = full(sprand(dim,dim,density));
% Set diagonal to zeroes
A(eye(size(A)) ~= 0) = 0;
% Check that A satisfied conditions (no row or column with all zeroes)
% If A does not, re-compute A and check again
while ~(all(any(A,1)) && all(any(A,2)))
A = full(sprand(dim,dim,density));
A(eye(size(A)) ~= 0) = 0;
end
When I tested this, it found a valid matrix in a small number of iterations each time.
If you need the matrix to be either sparser or less sparse, you can adjust 'density' to either a different function or a constant to adjust the average number of elements in the matrix.

More Answers (0)

Categories

Find more on Sparse Matrices in Help Center and File Exchange

Tags

Products

Community Treasure Hunt

Find the treasures in MATLAB Central and discover how the community can help you!

Start Hunting!