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(From a handout reference) In order for the Gauss-Seidel and Jacobi methods to converge, it is necessary to check if the coefficient matrix is diagonally dominant, that is, the diagonal element should have the largest value among all the elements in its column. If it is not yet diagonally dominant, employ pivoting. For a matrix to be diagonally dominant, the following conditions should hold: (This is also known as convergence)

abs(A[i][i]) > summation(abs(A[i][j]),j=1 to n) where j != i for all i...n
//swapping rows in a matrix for partial pivoting

Are there any pre-defined functions that I can use in maxima to implement convergence or should I do loops with swapping and what constraints should I use? Assume that the size of the matrix is 3x3 with non-zero elements.

I already saw some related questions but the answers are in matlab.

Link: Is there a function for checking whether a matrix is diagonally dominant (row dominance)

So, how can I do it in maxima?

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1 Answer 1

Here is some code that implements what you describe:

is_diag_dom_row (mat, i) :=
  is(2*abs(mat[i][i]) - lsum(abs(x), x, mat[i]) > 0)$

is_diag_dom (mat) :=
  every(lambda([i], is_diag_dom_row (mat, i)),

swapped_matrix_rows (mat, i1, i2) :=
  makelist (
    mat[if is(i=i1) then i2 elseif is(i=i2) then i1 else i],
    i, makelist(i,i,length(mat)))$

row_swap (mat, i1, i2) := apply(matrix, swapped_matrix_rows(mat, i1, i2))$

To make it easier to write, I split both operations into logical pieces. Adding an extra copy of mat[i][i] means that one can sum over the list much more easily than trying to sum for i ≠ j. If you wanted to check diagonal dominance by column, it's probably easiest just to transpose and do it by row, since Maxima mostly thinks of matrices as a list of rows. (Although there is a col function to extract a column if you need it).

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I should say: there's a slightly odd situation in Maxima where some things (like the every function) expect functions to map with, and some things (like makelist) expect an expression. I suspect this is to do with the tension between the Algol-inspired Macsyma language and the lispyness of the people writing the implementation. I guess you just have to check the docs (or try each way) until you've memorised which takes which. –  Rupert Swarbrick Aug 25 '12 at 13:52

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