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I'm trying to use matplotlib to read in an RGB image and convert it to grayscale. This is probably a stupid question, but I can't figure out how to do it.

in matlab I use this:

img = rgb2gray(imread('image.png'));

In the matplotlib tutorial they don't cover it. They just read in the image

import matplotlib.image as mpimg
img = mpimg.imread('image.png')

and then they slice the array, but that's not the same thing as converting rgb to gray from what I understand.

lum_img = img[:,:,0]

EDIT:

I find it hard to believe that numpy or matplotlib doesn't have a built in function to convert from rgb to gray. Isn't this a common operation in image processing?

I wrote a very simple function that works with the image imported using imread in 5 minutes. It's horribly inefficient, but that's why I was hoping for a professional implementation built in.

EDIT2: Sebastian's better implementation of my function. still hoping to find the built in one.

EDIT3: matlab's (NTSC/PAL) implementation

import numpy as np

def rgb2gray(rgb):

    r, g, b = rgb[:,:,0], rgb[:,:,1], rgb[:,:,2]
    gray = 0.2989 * r + 0.5870 * g + 0.1140 * b

    return gray
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1  
Note that you can write the same thing as your rgb2gray function simply as: gray = np.mean(rgb, -1). Maybe rgb[...,:3] there if it is actually rgba. –  seberg Aug 31 '12 at 1:00
    
hmm, gray = np.mean(rgb, -1) works fine. thanks. Is there any reason not to use this? Why would I use the solutions in the answers below instead? –  waspinator Aug 31 '12 at 1:22
2  
The grayscale wikipedia page says the method of converting RGB to grayscale is not unique, but gives a commonly used formulas based on luminance. It is quite different than np.mean(rgb, -1). –  unutbu Aug 31 '12 at 1:32
    
so I guess I want Matlab's version? 0.2989 * R + 0.5870 * G + 0.1140 * B I'm assuming that it's the standard way of doing it. –  waspinator Aug 31 '12 at 1:37
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2 Answers 2

up vote 18 down vote accepted

How about doing it with PIL:

import Image
img = Image.open('image.png').convert('LA')
img.save('greyscale.png')

Using matplotlib and the formula

Y' = 0.299 R + 0.587 G + 0.114 B 

you could do:

import numpy as np
import matplotlib.pyplot as plt
import matplotlib.image as mpimg

def rgb2gray(rgb):
    return np.dot(rgb[...,:3], [0.299, 0.587, 0.144])

img = mpimg.imread('image.png')     
gray = rgb2gray(img)    
plt.imshow(gray, cmap = plt.get_cmap('gray'))
plt.show()
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2  
If he has to use matplotlib for some other reason, he should be able to use the builtin colorsys.rgb_to_yiq() to transform plus a slice to get just the luma channel. –  Silas Ray Aug 30 '12 at 16:53
    
why .convert('LA')? why not .convert('gray')? Seems needlessly cryptic. The PIL documentation doesn't mention anything about 'LA' for the convert function. –  waspinator Aug 31 '12 at 1:32
1  
'L' (probably) stands for luminance. 'A' stands for alpha. It is documented here. –  unutbu Aug 31 '12 at 1:40
    
Any reason why you chose to use rollaxis instead of an array slice? Is it supposed to be faster? Slices seem to be more readable. I'm still surprised that rgb2gray hasn't been implemented in the library yet. I guess this is the best I can hope for, for now. Thanks. –  waspinator Aug 31 '12 at 2:17
    
Although array slices like r = rgb[...,0] might be more readable (and the code may even be a bit faster), writing it out for r, g and b is a bit repetitive, and would not generalize well to more variables. I think either way has its advantages. –  unutbu Aug 31 '12 at 12:21
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The tutorial is cheating because it is starting with a greyscale image encoded in RGB, so they are just slicing a single color channel and treating it as greyscale. The basic steps you need to do are to transform from the RGB colorspace to a colorspace that encodes with something approximating the luma/chroma model, such as YUV/YIQ or HSL/HSV, then slice off the luma-like channel and use that as your greyscale image. matplotlib does not appear to provide a mechanism to convert to YUV/YIQ, but it does let you convert to HSV.

Try using matplotlib.colors.rgb_to_hsv(img) then slicing the last value (V) from the array for your grayscale. It's not quite the same as a luma value, but it means you can do it all in matplotlib.

Background:

Alternatively, you could use PIL or the builtin colorsys.rgb_to_yiq() to convert to a colorspace with a true luma value. You could also go all in and roll your own luma-only converter, though that's probably overkill.

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