I want to reorder dimensions of my numpy array. The following piece of code works but it's too slow.

for i in range(image_size):
    for j in range(image_size):
        for k in range(3):
            new_im[k, i, j] = im[i, j, k]

After this, I vectorize the new_im:

new_im_vec = new_im.reshape(image_size**2 * 3)

That said, I don't need new_im and I only need to get to new_im_vec. Is there a better way to do this? image_size is about 256.

  • If you are using Python2, you can use xrange instead of range
    – jh314
    Jul 9 '13 at 21:18

Check out rollaxis, a function which shifts the axes around, allowing you to reorder your array in a single command. If im has shape i, j, k

rollaxis(im, 2)

should return an array with shape k, i, j.

After this, you can flatten your array, ravel is a clear function for this purpose. Putting this all together, you have a nice one-liner:

new_im_vec = ravel(rollaxis(im, 2))
  • Cool! it works. The other thing I need to do is to mirror in the first dimension. swap a[1, :, :] and a[3, :, :]. Is there a function for this? Jul 9 '13 at 21:40
  • 1
    @Mohammad Moghimi, If I understand your question correctly, you can use flipud to flip the array about the horizontal axis. a[::-1,:,:] should also work. Jul 9 '13 at 21:43
  • 2
    +1 Probably the best option. For completeness, there is also the option (which I believe is actually called by np.rollaxis) of doing np.transpose(im, (2, 0, 1)). As an aside note, np.rollaxis or np.transpose return a view of the original data, but when calling flatten on that view, a copy is likely to be triggered.
    – Jaime
    Jul 9 '13 at 21:59
new_im = im.swapaxes(0,2).swapaxes(1,2) # First swap i and k, then i and j
new_im_vec = new_im.flatten() # Vectorize

This should be much faster because swapaxes returns a view on the array, rather than copying elements over.

And of course if you want to skip new_im, you can do it in one line, and still only flatten is doing any copying.

new_im_vec = im.swapaxes(0,2).swapaxes(1,2).flatten()
  • swapaxes is awesome! Thanks very much!
    – duhaime
    Oct 17 '18 at 22:50

With einops:

x = einops.rearrange(x, 'height width color -> color height width')


  • you see how axes were ordered in input
  • you see how axes are ordered in output
  • you don't need to think about steps you need to take (and e.g. no need to remember which direction axes are rolled)

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