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I have a 12x12 matrix with diagonal values that vary from being nonzero to zero, I am wondering if there is an algorithm to swap all the rows within a matrix to make sure there is no nonzero value. My matrix C, must not have any nonzero value at C(i,i). Thoughts?

Example: I have a 5x5 matrix

3 4 5 0 6
1 0 4 3 0
0 5 1 0 3
0 1 0 2 0 
2 0 5 0 0

How do I make it so that there are no nonzero diagonal elements?

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Some examples would be useful. –  Marcin Mar 5 '14 at 1:15
Look for a perfect matching in the bipartite graph whose connectivity is determined by the nonzero entries. –  David Eisenstat Mar 5 '14 at 1:24
added an example –  bala Mar 5 '14 at 1:41
It's a search problem. If a row as non-negative element at (i,j,k), then this row can be at i,j or kth position. You can use djksra algorithm to find the combination. For example [3,4,5,0,6] can be at the first, second, third or fifth row, but not at fourth row, because its fourth element is 0. –  DXM Mar 5 '14 at 1:49
@NiklasB. The expressions "pragmatic" and "12!" do not belong in the same sentence. haha –  Timothy Shields Mar 5 '14 at 5:13

1 Answer 1

  1. Construct a bipartite graph.
    • Create a set of nodes, one for each row index, on the left.
    • Create a set of nodes, one for each column index, on the right.
  2. For each element A(i, j) of the matrix:
    • If A(i, j) is zero, add an edge between the node for row i and the node for column j.
  3. Find a perfect matching in the bipartite graph. The n edges in the matching will tell you how to permute your rows. Edge (i,j) in the matching indicates that row i should become row j.

See here for the perfect matching algorithm: http://en.wikipedia.org/wiki/Bipartite_matching#In_unweighted_bipartite_graphs

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