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I' trying to translate this matlab code to python:

T = length(z);
lambda = 10;
I = speye(T)
D2 = spdiags(ones(T-2,1)*[1 -2 1],[0:2],T-2,T);
z_stat = (I-inv(I + lambda^2*D2'*D2))*z;

What I got at the moment:

T = len(signal)
lam = 10;
I  = np.identity(T)
D2 = scipy.sparse.spdiags(np.ones((T-2,1),dtype=np.int)*[1,-2,1],(range(0,3)),T-2,T);

At the moment I get this error

"scipy.sparse.sp...ge(0,3)),T-2,T)" ValueError: number of diagonals (298) does not match the number of offsets (3) args tuple: ('number of diagonals (298) does not match the number of offsets (3)',)

When looking at the documentation, the matlab function and the python function are very similar. Though there is probably a difference which I am missing. My question is now: What am I doing wrong ?

edit: z is an array with length 300

share|improve this question
    
Which version of python? –  Joel Cornett Apr 16 '13 at 7:07
    
I have python 2.7 –  Ojtwist Apr 16 '13 at 7:07

1 Answer 1

up vote 0 down vote accepted

If you transpose the filter data to spdiags then you get an answer of the same dimensions in both packages:

# numpy/scipy
filt = [1,-2,1]* np.ones((1,T-2),dtype=np.int).T
D2 = scipy.sparse.spdiags(data.T, (range(0,3)),T-2,T)
np.shape(D2)
>>> (298, 300)

% matlab check
D2 = spdiags(ones(T-2,1)*[1 -2 1],[0:2],T-2,T)
size(D2)
ans =
  298   300
share|improve this answer
    
yes but the content looks different. –  Ojtwist Apr 16 '13 at 8:46
    
nvm I was wrong –  Ojtwist Apr 16 '13 at 9:07

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