Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

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:
MATLAB:

    for k = 1 : nx  
            j = k+2;   

Python:

for k in range(1,nx+1):  
    j = k+2  

MATLAB:

    [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);  

Python:

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]  

MATLAB:

    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;  

Python:

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  

MATLAB:

    xx = -kappa:h:kappa;  

Python:

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?

share|improve this question
    
You need to format your code correctly, and be more specific about your problem. What are you talking about? –  Falmarri Jan 24 '11 at 7:33
    
The syntax is quite different. In MATLAB indices start from 1, in Python they start from 0. I want to know if I have made any errors that will produce different results. –  user569474 Jan 24 '11 at 8:10
    
I try to solve numerically an eigenvalue problem. The code is in MATLAB and I try to convert it to Python. –  user569474 Jan 24 '11 at 8:11
2  
Please post an actual example where the results differ. Also note that eigenvectors are not unique, and if the eigenvalues are degenerate, different choices for the eigenvectors can be made, so there is no "correct" choice for the eigenvectors. If Matlab and Scipy use different algorithms for the eigendecomposition, then the results can be completely different. –  Philipp Jan 24 '11 at 9:16
    
This is the Figure 1 from the MATLAB: img834.imageshack.us/i/27246498.png This is the Figure 1 from the Python: img340.imageshack.us/i/figure1c.png –  user569474 Jan 24 '11 at 9:31

1 Answer 1

I don't know about matlab, but for python the code

for k in range(1,nx+1):  
  j = k+2

is the same as

j = nx+2

This isn't your main problem, but it's worrying.

share|improve this answer
    
Yes, I think that in MATLAB the last value in the loop that will be calculated is, too, j = nx+2. –  user569474 Jan 27 '11 at 7:21

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.