The error
Index exceeds the number of array elements (3).
This means that you are asking for an element beyond the boundaries of one of your arrays, which has 3 elements.
The cause
If we zoom out to
for i = 1:n
fprintf('eigenvalue %d has multiplicity %i\n',M(i),m(i))
end
We see that there is one indexing variable, i, which is being used in M(i) and m(i). The for loop gives i values from 1 to n, which (from earlier) is the number of columns in your input matrix. Your input matrix is 4x4, so n = 4. When the program tries to use i = 4, it calls for M(4) and m(4), which do not exist because they are beyond the boundaries of those arrays.
You can see the program works as intended for i = 1:3, so the issue is that listing the eigenvalues with their multiplicities has changed the representation from 4 eigenvalues (allowing the possibility of duplicates) to 3 eigenvalues (removing duplicates).
The solution
When you have determined the unique eigenvalues, measure the size of that array and use that size with the for loop instead.
eig_count = size(m,1) % Only returns the number of rows in m
for i = 1:eig_count
fprintf('eigenvalue %d has multiplicity %i\n',M(i),m(i))
end
