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I want to make a fourier-transformation of an image. But how can I change the picture to an array? And after this I think I should use numpy.fft.rfft2 for the transformation. And how to change back from the array to the image? Thanks in advance.

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1 Answer 1

up vote 10 down vote accepted

You can use the PIL library to load/save images and convert to/from numpy arrays.

import Image, numpy
i = Image.open('img.png')
i = i.convert('L')    #convert to grayscale
a = numpy.asarray(i) # a is readonly

b = abs(numpy.fft.rfft2(a))

j = Image.fromarray(b)
j.save('img2.png')

I used abs above because the result of the FFT has complex values so it doesn't really make sense to convert it directly to an image. The conversion to grayscale is done so that the FFT is done on a single channel only - you can choose another way to pick a channel instead, or pass the correct axes parameter to rfft2 and later extract the channel you need.

Edit:

To also perform an inverse FFT and get back the original image, the following works for me:

import Image, numpy
i = Image.open('img.png')
i = i.convert('L')    #convert to grayscale
a = numpy.asarray(i)

b = numpy.fft.rfft2(a)
c = numpy.fft.irfft2(b)

j = Image.fromarray(c.astype(numpy.uint8))
j.save('img2.png')
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link: pythonware.com/products/pil –  Personman Apr 16 '10 at 11:39
    
When I make an inverse fft, i dont get the real image back. Why? –  kame Apr 16 '10 at 11:57
1  
@kame Because the call to abs loses data. Also, the source image should be grayscale, otherwise you'll get a 3D array instead of 2D. –  interjay Apr 16 '10 at 12:05
    
@kame: I added code to show how you can do an inverse FFT. I'm guessing this is what you need. –  interjay Apr 16 '10 at 12:32
    
Thanks a lot. This wasn't obvious. :) –  kame Apr 16 '10 at 16:30

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