I’ve got an image read into numpy with quite a few pixels in my resulting array.

I calculated a lookup table with 256 values. Now I want to do the following:

for i in image.rows:
    for j in image.cols:
        mapped_image[i,j] = lut[image[i,j]]

Yep, that’s basically what a lut does.
Only problem is: I want to do it efficient and calling that loop in python will have me waiting for some seconds for it to finish.

I know of numpy.vectorize(), it’s simply a convenience function that calls the same python code.


You can just use image to index into lut if lut is 1D.
Here's a starter on indexing in NumPy:

In [54]: lut = np.arange(10) * 10

In [55]: img = np.random.randint(0,9,size=(3,3))

In [56]: lut
Out[56]: array([ 0, 10, 20, 30, 40, 50, 60, 70, 80, 90])

In [57]: img
array([[2, 2, 4],
       [1, 3, 0],
       [4, 3, 1]])

In [58]: lut[img]
array([[20, 20, 40],
       [10, 30,  0],
       [40, 30, 10]])

Mind also the indexing starts at 0

  • 4
    face-desk This is so simple, I could scream. I thought in the other direction the whole time and that it won’t work. But of course, numpy does things elementwise, so this is the obvious solution. Maybe I was too tired yesterday. ;) – Profpatsch Jan 22 '13 at 9:04
  • 2
    Actually, it seems to work for for multi-dimensional LUTS as well, at least with numpy 1.9.2 – Claude Jun 21 '15 at 20:11

TheodrosZelleke's answer in correct, but I just wanted to add a little undocumented wisdom to it. Numpy provides a function, np.take, which according to the documentation "does the same thing as fancy indexing."

Well, almost, but not quite the same:

>>> import numpy as np
>>> lut = np.arange(256)
>>> image = np.random.randint(256, size=(5000, 5000))
>>> np.all(lut[image] == np.take(lut, image))
>>> import timeit
>>> timeit.timeit('lut[image]',
...               'from __main__ import lut, image', number=10)
>>> timeit.timeit('np.take(lut, image)',
...               'from __main__ import np, lut, image', number=10)

np.take is about 3x faster! In my experience, when using 3D luts to convert images from RGB to other color spaces, adding logic to convert the 3D look-up to a 1D flattened look-up allows a x10 speed up.

  • 1
    Oh, wow, I looked deeper into np.put for a while because I thought this might work. When it didn’t I didn’t check the other functions. -.- – Profpatsch Jan 22 '13 at 9:05
  • 16
    These timings are two years old now: newer versions of NumPy, starting with 1.9, have a much improved fancy indexing machinery, which is now comparably as fast as using take. – Jaime Aug 26 '15 at 13:33

If you are limited to using numpy, TheodrosZelleke's answer is the way to go. But if you allow other modules, cv2 is a useful module for interacting with image data, and it accepts numpy arrays as input. A big limitation is that the image array must have dtype='uint8', but as long as that is OK, the function cv2.LUT does exactly what we want, and it provides a significant speedup:

>>> import numpy as np
>>> import cv2
>>> lut = np.arange(256, dtype='uint8')
>>> image = np.random.randint(256, size=(5000, 5000), dtype='uint8')
>>> np.all(lut[image] == cv2.LUT(image, lut))
>>> import timeit
>>> timeit.timeit('lut[image]', 'from __main__ import lut, image', number=10)
>>> timeit.timeit('cv2.LUT(image, lut)', 
...               'from __main__ import cv2, lut, image', number=10)

Your lookup table can be some other datatype, but you loose a lot of the speed improvement (although numpy indexing takes a performance hit as well). For example, with dtype='float64':

>>> lut = np.arange(256, dtype='float64')
>>> timeit.timeit('lut[image]', 'from __main__ import lut, image', number=10)
>>> timeit.timeit('cv2.LUT(image, lut)', 
...               'from __main__ import cv2, lut, image', number=10)

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