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how to reshape an n x 1 matrix into a squre matrix using matlab?

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ramesh jallu
ramesh jallu am 3 Mär. 2011
hi experts........... greetings to all. hear a challenge question? how to reshape an n x 1 matrix into a square matrix using matlab?please let me know.i would be grateful to you.i am waiting for solution.
thanks in advance

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Jos (10584)
Jos (10584) am 4 Mär. 2011
This function will take any vector (or even a matrix) V and reshapesit into the smallest square matrix that can hold it. Note that it does not use reshape.
function M = reshapeVintosquareM (V)
% Reshapes a vector into the smallers square matrix possible. If V is too short
% the remainder of M is filled with NaNs.
N = numel(V) ;
M = NaN(ceil(sqrt(N))) ;
M(1:N) = V ;
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Walter Roberson
Walter Roberson am 4 Mär. 2011
Yep, there are special-cases of my code for some specific fill values such as nan:
SQ = nan(ceil(sqrt(length(vec)))); SQ(1:length(vec)) = vec;

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Weitere Antworten (4)

Andreas Goser
Andreas Goser am 3 Mär. 2011
The answer is already in your question. RESHAPE.
x=[1 2 3 4 5 6 7 8 9];
reshape(x,3,3)
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Walter Roberson
Walter Roberson am 5 Mär. 2011
Sorry, Matlab is not able to handle that situation because Matlab uses finite precision arithmetic, and the situation you outline requires infinite precision arithmetic in order to properly be able to distinguish between indices 4.1231056256176605498214098559740770251471992253736, sqrt(17), and 4.1231056256176605498214098559740770251471992253737
ramesh jallu
ramesh jallu am 5 Mär. 2011
thanks for your awesome response

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Walter Roberson
Walter Roberson am 4 Mär. 2011
Vectors which are not the square of a positive integer can be accomodated, if the unused spaces can be filled with some specific value of the same data class as the array values.
SQ = FillValue * ones(ceil(sqrt(length(vec)))); SQ(1:length(vec)) = vec;
The above will also work for vectors which would form perfect squares.
  2 Kommentare
Jan
Jan am 4 Mär. 2011
What an excellent service. You get ultimative solutions even for very basic questions.
I hope that Ramesh is goind to accept an answer.

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David Young
David Young am 3 Mär. 2011
The SQRT function may be useful here.
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ramesh jallu
ramesh jallu am 5 Mär. 2011
can we do that by adding some dummy rows and columns?
Walter Roberson
Walter Roberson am 5 Mär. 2011
Adding dummy rows or columns would be contrary to the requirement that "after reshaping product of dimensions should be same".
If n is composite, it would be possible to arrange n in to a rectangle and add dummy rows and columns such the the result was a square matrix. If n is prime, then you would have to add (n-1) dummy rows (or columns) of length n in order to form a square.
I would have to think a bit to come up with an algorithm for determining the fewest total dummy rows and columns necessary to create the square matrix. I suspect that might also be the same solution as "the lowest total number of dummy elements added" but I am too tired at the moment to prove it mentally.
In the above discussion, I am assuming that n must be arranged in to a rectangle. The answer I gave above with SQ is based upon arranging n in to a square that has just a single partial strip of elements missing and filling those missing elements with a dummy value.

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Paulo Silva
Paulo Silva am 4 Mär. 2011
function [SQmatrix,flag]=vec2SQmat(vec)
%[SQmatrix,flag]=vec2SQmat(matrix)
%
%This function receives a vector and tries
%to convert it to a square matrix SQmatrix
%flag indicates the sucess (1) or failure (0)
%
flag=0;
sq=sqrt(numel(vec));
if (round(sq)==sq)
SQmatrix=reshape(vec,sq,sq);
flag=1;
end

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