I am trying to extend the fft code that works fine for 1D arrays in python for images. Actually i know the problem is in logic in extension. I don't know much about FFTs and i have to submit assignments for Image Processing. I will be thankful for any hints or solutions

Here is the code, Actually, I'm trying to create a module for FFT in python, and it already worked fine for 1D with helps from rosetta Code's site.

```
from cmath import exp, pi
from math import log, ceil
def fft(f):
N = len(f)
if N <= 1: return f
even = fft(f[0::2])
odd = fft(f[1::2])
return [even[k] + exp(-2j*pi*k/N)*odd[k] for k in xrange(N/2)] + \
[even[k] - exp(-2j*pi*k/N)*odd[k] for k in xrange(N/2)]
def pad(f):
n = len(f)
N = 2 ** int(ceil(log(n, 2)))
F = f + [0] * (N - n)
return F, n
def unpad(F, n):
return F[0 : n]
def pad2(f):
m, n = len(f), len(f[0])
M, N = 2 ** int(ceil(log(m, 2))), 2 ** int(ceil(log(n, 2)))
F = [ [0]*N for _ in xrange(M) ]
for i in range(0, m):
for j in range(0, n):
F[i][j] = f[i][j]
return F, m, n
def fft1D(f):
Fu, n = pad(f)
return fft(Fu), n
def fft2D(f):
F, m, n = pad2(f)
M, N = len(F), len(F[0])
Fuv = [ [0]*N for _ in xrange(M) ]
for i in range(0, M):
Fxv = fft(F[i])
for j in range(0, N):
Fuv[i][j] = (fft(Fxv))[j]
return Fuv, [m, n]
```

I called this module with tis code:

```
from FFT import *
f= [0, 2, 3, 4]
F = fft1D(f)
print f, F
X, s = fft2D([[1,2,1,1],[2,1,2,2],[0,1,1,0], [0,1,1,1]])
for i in range(0, len(X)):
print X[i]
```

It's output is :

```
[0, 2, 3, 4] ([(9+0j), (-3+2j), (-3+0j), (-3-2j)], 4)
[(4+0j), (4-2.4492935982947064e-16j), (4+0j), (8+2.4492935982947064e-16j)]
[(8+0j), (8+2.4492935982947064e-16j), (8+0j), (4-2.4492935982947064e-16j)]
[0j, -2.33486982377251e-16j, (4+0j), (4+2.33486982377251e-16j)]
[0j, (4+0j), (4+0j), (4+0j)]
```

The first one for 1d is fine as i verified result with Matlab's output but for 2nd one the Matlab's output is:

```
>> fft([1,2,1,1;2,1,2,2;0,1,1,0;0,1,1,1])
ans =
3.0000 5.0000 5.0000 4.0000
1.0000 - 2.0000i 1.0000 0 - 1.0000i 1.0000 - 1.0000i
-1.0000 1.0000 -1.0000 -2.0000
1.0000 + 2.0000i 1.0000 0 + 1.0000i 1.0000 + 1.0000i
```

The output is different ,which means i'm doing something wrong in the code's logic.Please help without bothering as i have not studied FFT formally till now so i'm not able to understand the mathematics copmpletely, maybe after i studied it, i may figure the problem out.

`numpy`

? it already has n-dimensional FFT code. – isedev Mar 3 '13 at 15:56