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The result of solving a polynom equation is a 1x2 vector or a 1x1 in some instances. I am trying to store all solutions for equations with different coefficients. so some solutions are just 1x1 vectors. how can i store these efficiently?

n = 1;
%sol = zeros(size(coef));  %create solution matrix in memory
sol = {};

while n < size(coef,2)
        sol(n) = roots(coef(:,n));

end

"Conversion to cell from double is not possible." error.

coef is coefficient matrix

1 Answer 1

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You're almost there!

In order to store the vectors as cells in the cell array, use curly braces {} during their assignment:

sol(n) = {roots(coef(:,n))};

or alternatively:

sol{n} = roots(coef(:,n));

That way, the vectors/arrays can be of any size. Check this link for more info about accessing data in cell arrays.

Also, don't forget to increment n otherwise you will get an infinite loop.

Whole code:

n = 1;
%sol = zeros(size(coef));  %create solution matrix in memory
sol = {};

while n <= size(coef,2)
        sol(n) = {roots(coef(:,n))};
n = n+1
end
4
  • well it runs but now it get a matrix full of 1x1 cell arrays with no method of accessing the desired values. preferably i would have a matrix of vectors of some sort (2x1), easy to iterate over May 5, 2015 at 19:37
  • the goal of cell arrays is to store data of different sizes. If you have 2x1 and 1x1 data you can't use a regular array to store them all
    – Benoit_11
    May 5, 2015 at 19:39
  • I understand that, so I get [2x1] as one of the solutions but that doesnt tell me about the value, accessing them with {} as well I suppose? the solutions are rounded to integers in the vectors how do i extract values of 15 digits (the max) ? May 5, 2015 at 21:09
  • Ok glad you found out! Cheers
    – Benoit_11
    May 5, 2015 at 21:47

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