43

I have an image where the colors are BGR. How can I transform my PIL image to swap the B and R elements of each pixel in an efficient manner?

24

Assuming no alpha band, isn't it as simple as this?

b, g, r = im.split()
im = Image.merge("RGB", (r, g, b))

Edit:

Hmm... It seems PIL has a few bugs in this regard... im.split() doesn't seem to work with recent versions of PIL (1.1.7). It may (?) still work with 1.1.6, though...

  • 3
    ah np.roll might do the trick – Claudiu Jan 11 '11 at 23:13
  • the solution was to load the image properly in the first place =P but this seems lovely – Claudiu Feb 3 '11 at 18:53
  • np.roll is great, thanks. – Geoff Apr 4 '11 at 16:51
  • 12
    np.roll will convert BGR to RBG, not RGB. If you want to do this in numpy, you can use data[...,[2,1,0]] to swap the channels. But if you're already using OpenCV or PIL, just go with Martin Beckett's response. – Luke Yeager Apr 13 '15 at 19:34
  • 2
    this answer is incorrect, the question is rgb-> bgr,.... – avocado Mar 18 '17 at 5:06
92

Just to add a more up to date answer:

With the new cv2 interface images loaded are now numpy arrays automatically.
But openCV cv2.imread() loads images as BGR while numpy.imread() loads them as RGB.

The easiest way to convert is to use openCV cvtColor.

import cv2
srcBGR = cv2.imread("sample.png")
destRGB = cv2.cvtColor(srcBGR, cv2.COLOR_BGR2RGB)
  • 2
    Pretty much the only reason you would have a BGR image is if you're using OpenCV. Your solution is the right thing to do. The other top answer is functional, but would be slow in processing large images. – Zach Garner Oct 29 '14 at 14:48
  • Why is this not on top ? – DollarAkshay Apr 4 '17 at 11:15
  • 9
    Because the simplest solution is literally just: img = img[..., ::-1] – Ryan Soklaski Jul 9 '17 at 1:36
  • 1
    Does cv2 guarantee that images are contiguous? OpencCV (at least in c++) will start each new row on a 4byte boundary so you have to be careful moving raw bytes around – Martin Beckett Jul 9 '17 at 3:10
  • thanks for this...i am using them in the same codes,got me crazy for a while@RyanSoklaski that is actually more confusing without knowing which is default for opencv or PIL but very neat – Eliethesaiyan Jul 10 '17 at 7:00
79

I know it's an old question, but I had the same problem and solved it with:

img = img[:,:,::-1]
  • Can you explain why this works? The code look just like a mess ... – Wesley Ranger Jan 4 '17 at 7:43
  • 1
    The data has 3 dimensions: width, height, and color. ::-1 effectively reverses the order of the colors. The width and height are not affected. – Peter9192 Jan 10 '17 at 12:48
  • 7
    Good, I got it following your note and my testing.::-1 is actually a shorthand of numpy operation [start:end:step], and start/end is decided automatically. – Wesley Ranger Jan 11 '17 at 14:27
  • 1
    for clarity, img = img[:, :, : :-1] is equivalent to img = img[:, :, [2,1,0]]. I think the later is better as it is more explicit. – EuWern Jun 5 '18 at 12:37
  • 9
    img[:, :, : :-1] is not equivalent to img[:, :, [2,1,0]]. The former utilizes basic index and the latter uses advanced indexing. The latter will make a copy of your image while the former does not. – Ryan Soklaski Jul 9 '18 at 23:38
7

This was my best answer. This does, by the way, work with Alpha too.

from PIL import Image
import numpy as np
import sys 

sub = Image.open(sys.argv[1])
sub = sub.convert("RGBA")
data = np.array(sub) 
red, green, blue, alpha = data.T 
data = np.array([blue, green, red, alpha])
data = data.transpose()
sub = Image.fromarray(data)
  • This solution doesn't seem to be working for me. – ProGamerGov Mar 15 '18 at 21:52
4
import cv2
srcBGR = cv2.imread("sample.png")
destRGB = cv2.cvtColor(srcBGR,cv2.COLOR_BGR2RGB)

Just to clarify Martin Beckets solution, as I am unable to comment. You need cv2. in front of the color constant.

  • 1
    Ah useful, thanks. Note you can suggest an edit and you get +2 rep if it gets approved – Claudiu Mar 23 '14 at 21:15
  • 1
    thanks, Claudiu, I'll try that: """Edits must be at least 6 characters; is there something else to improve in this post?""" Well - that did not go so well ;-) – user2692263 Mar 24 '14 at 20:26
2
im = Image.frombuffer('RGB', (width, height), bgr_buf, 'raw', 'BGR', 0, 0)
2

Adding a solution using the ellipsis

image = image[...,::-1]

In this case, the ellipsis ... is equivalent to :,: while ::-1 inverts the order of the last dimension (channels).

1

Using the ideas explained before... using numpy you could.

bgr_image_array = numpy.asarray(bgr_image)
B, G, R = bgr_image_array.T
rgb_image_array = np.array((R, G, B)).T
rgb_image = Image.fromarray(rgb_image_array, mode='RGB')

Additionally it can remove the Alpha channel.

assert bgra_image_array.shape == (image_height, image_width, 4)
B, G, R, _ = bgra_image_array.T
rgb_image_array = np.array((R, G, B)).T
0

You should be able to do this with the ImageMath module.

Edit:

Joe's solution is even better, I was overthinking it. :)

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