Reshape a 3-by- 4 matrix into a 2-by- 6 matrix. The quantity prod(siz) must be the same as prod(size(A)). Returns an N-D array with the same elements as A, but reshaped to siz, a vector representing the dimensions of the reshaped array. The value of prod(size(A)) must be evenly divisible by the product of the specified dimensions. The product of the specified dimensions, m*n*p*., must be the same as prod(size(A)).ī = reshape(A.) calculates the length of the dimension represented by the placeholder, such that the product of the dimensions equals prod(size(A)). Returns an N-D array with the same elements as A but reshaped to have the size m-by- n-by- p-by. The example above, gave us the magic matrix (4) in the first line of code. The easiest way is to first convert the table into a matrix form and then reshape it by using the 'reshape' function in Matlab.Then convert back to table and and the variable names. I tried reshape(A, 10,10) but that arranged them down columns instead of rows. An error results if A does not have m*n elements.ī = reshape(A,m,n,p.) or B = reshape(A,) (2) The MATLAB system output is as follows: Let’s dissect the code. How can I reshape it so that I have a 10 x 10 double so that the first ten elements are the first row. Returns the m-by- n matrix B whose elements are taken column-wise from A. Reshape (MATLAB Functions) MATLAB Function Reference
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