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.

I am trying to run this code for a student project:

The authors blog with complete Python-code

Only that function:

def fwt97(s, width, height):
''' Forward Cohen-Daubechies-Feauveau 9 tap / 7 tap wavelet transform   
performed on all columns of the 2D n*n matrix signal s via lifting.
The returned result is s, the modified input matrix.
The highpass and lowpass results are stored on the left half and right
half of s respectively, after the matrix is transposed. '''

# 9/7 Coefficients:
a1 = -1.586134342
a2 = -0.05298011854
a3 = 0.8829110762
a4 = 0.4435068522

# Scale coeff:
k1 = 0.81289306611596146 # 1/1.230174104914
k2 = 0.61508705245700002 # 1.230174104914/2
# Another k used by P. Getreuer is 1.1496043988602418

for col in range(width): # Do the 1D transform on all cols:
    ''' Core 1D lifting process in this loop. '''
    ''' Lifting is done on the cols. '''

    # Predict 1. y1
    for row in range(1, height-1, 2):
        s[row][col] += a1 * (s[row-1][col] + s[row+1][col])   
    s[height-1][col] += 2 * a1 * s[height-2][col] # Symmetric extension

    # Update 1. y0
    for row in range(2, height, 2):
        s[row][col] += a2 * (s[row-1][col] + s[row+1][col])
    s[0][col] +=  2 * a2 * s[1][col] # Symmetric extension

    # Predict 2.
    for row in range(1, height-1, 2):
        s[row][col] += a3 * (s[row-1][col] + s[row+1][col])
    s[height-1][col] += 2 * a3 * s[height-2][col]

    # Update 2.
    for row in range(2, height, 2):
        s[row][col] += a4 * (s[row-1][col] + s[row+1][col])
    s[0][col] += 2 * a4 * s[1][col]

# de-interleave
temp_bank = [[0]*width for i in range(height)]
for row in range(height):
    for col in range(width):
        # k1 and k2 scale the vals
        # simultaneously transpose the matrix when deinterleaving
        if row % 2 == 0: # even
            temp_bank[col][row/2] = k1 * s[row][col]
        else:            # odd
            temp_bank[col][row/2 + height/2] = k2 * s[row][col]

# write temp_bank to s:
for row in range(width):
    for col in range(height):
        s[row][col] = temp_bank[row][col]

return s

According to the author, the code should run, but I am receiving this error:

Traceback (most recent call last):
File “wavelet_02.py”, line 200, in
m = fwt97_2d(m, 3)
File “wavelet_02.py”, line 27, in fwt97_2d
m = fwt97(m, w, h) # cols
File “wavelet_02.py”, line 108, in fwt97
temp_bank[col][row/2 + height/2] = k2 * s[row][col]
IndexError: list assignment index out of range

Tested on: Windows 7 / Mac OS 10.7.3
Python 2.7.3
PIL 1.1.7

Any help would be great!

Cheers, Tobi

share|improve this question
    
The error basically indicates row/2 + height/2 > height. Might be a starting point... –  ChristopheD Jun 5 '12 at 8:26

1 Answer 1

(1) you sure you're using python 2, because in python 3 division changed (to not round to int when dividing ints) in a way that would cause that error? (hmm, although the exact error reported is different so i guess it's not that)

(2) despite using width and height variables the comments at the top of the code indicate that it's for square matrices only ("n*n"). do you have height = width? it's clear the code won't work otherwise because the transpose is assigned to the original matrix.

for me, the following works fine in python 2.7:

print(fwt97([[1,2],[3,4]], 2, 2))

while

print(fwt97([[1,2],[3,4]], 2, 1))

gives your error, as expected.

in fact, the code in general is weird. looks like it was written by a fortran or c programmer, because you don't need to pass in the dimensions at all. it would be better to have:

def fwt97(s):
    height = len(s)
    width = height
    for row in s:
        assert len(row) == width, "not square"
    ...
share|improve this answer
    
Thanks for your reply! I am storing an image inside of the matrix. So, now i found out that my error is caused by a not-square image. You can find the whole code on that page The authors blog with complete Python-code Looks like I have to modify the entire code.. sigh.. –  digitobe Jun 7 '12 at 14:58
    
most will probably carry through. but when you calculate the transpose, don't try to stick each element in-place in the original matrix; generate a new matrix (with a different shape). good luck... –  andrew cooke Jun 7 '12 at 15:00
    
Cheers Andrew, I'll dig into it next week!! So far I love the PIL library. -Tobi –  digitobe Jun 19 '12 at 23:07

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.