How to convert the following MATLAB code to Python? Here is my solution, but it doesn't quite produce the same results. For example,
f seems to be always positive in the MATLAB code, but in my Python code,
f also gets negative values.
Any ideas how to fix the program?
Mostly, I am concerned about these:
for k = 1 : nx j = k+2;
for k in range(1,nx+1): j = k+2
[V,D] = eig(A, B); DD = diag(D); keep_idxs = find( ~isinf(DD) ); D = diag( DD(keep_idxs) ); V = V(:, keep_idxs); [lambda, idx] = min(diag(D)); f = V(:,idx);
w,vr = scipy.linalg.decomp.eig(A,B) w = w.real vr = vr.real w = w[2:-1-2] lambda_ = w.min() idx = w.argmin() f = vr[:,idx]
f = f(3:end-2); [nf, nf_idx] = max(abs(f)); % L_infty norm n2 = f(nf_idx); % normalize sign away, too f = f ./ n2;
f = f[2:-1-1] nf = max(np.absolute(f)) nf_idx = np.absolute(f).argmax() nf_idx = np.ma.argmax(f) n2 = f[nf_idx] f = f/n2
xx = -kappa:h:kappa;
xx = np.arange(-kappa, kappa+h, h)
Are those equivalent with each other? If they are, then why don't they produce exact the same results?