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I'm looking for a way to find the most dominant color/tone in an image using python. Either the average shade or the most common out of RGB will do. I've looked at the Python Imaging library, and could not find anything relating to what I was looking for in their manual, and also briefly at VTK.

I did however find a PHP script which does what I need, here (login required to download). The script seems to resize the image to 150*150, to bring out the dominant colors. However, after that, I am fairly lost. I did consider writing something that would resize the image to a small size then check every other pixel or so for it's image, though I imagine this would be very inefficient (though implementing this idea as a C python module might be an idea).

However, after all of that, I am still stumped. So I turn to you, SO. Is there an easy, efficient way to find the dominant color in an image.

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I'm guessing it resizes the picture to let the rescaling algorithm do some of the averaging for you. – Skurmedel Jul 13 '10 at 22:09
up vote 27 down vote accepted

Here's code making use of PIL and Scipy's cluster package.

For simplicity I've hardcoded the filename as "image.jpg". Resizing the image is for speed: if you don't mind the wait, comment out the resize call. When run on this sample image of blue peppers it usually says the dominant colour is #d8c865, which corresponds roughly to the bright yellowish area to the lower left of the two peppers. I say "usually" because the clustering algorithm used has a degree of randomness to it. There are various ways you could change this, but for your purposes it may suit well. (Check out the options on the kmeans2() variant if you need deterministic results.)

import struct
import Image
import scipy
import scipy.misc
import scipy.cluster


print 'reading image'
im ='image.jpg')
im = im.resize((150, 150))      # optional, to reduce time
ar = scipy.misc.fromimage(im)
shape = ar.shape
ar = ar.reshape(scipy.product(shape[:2]), shape[2])

print 'finding clusters'
codes, dist = scipy.cluster.vq.kmeans(ar, NUM_CLUSTERS)
print 'cluster centres:\n', codes

vecs, dist = scipy.cluster.vq.vq(ar, codes)         # assign codes
counts, bins = scipy.histogram(vecs, len(codes))    # count occurrences

index_max = scipy.argmax(counts)                    # find most frequent
peak = codes[index_max]
colour = ''.join(chr(c) for c in peak).encode('hex')
print 'most frequent is %s (#%s)' % (peak, colour)

Note: when I expand the number of clusters to find from 5 to 10 or 15, it frequently gave results that were greenish or bluish. Given the input image, those are reasonable results too... I can't tell which colour is really dominant in that image either, so I don't fault the algorithm!

Also a small bonus: save the reduced-size image with only the N most-frequent colours:

# bonus: save image using only the N most common colours
c = ar.copy()
for i, code in enumerate(codes):
    c[scipy.r_[scipy.where(vecs==i)],:] = code
scipy.misc.imsave('clusters.png', c.reshape(*shape))
print 'saved clustered image'
share|improve this answer
Wow. That's great. Almost exactly what I was looking for. I did look at scipy, and had a feeling the answer was somewhere in there :P Thank you for your answer. – Blue Peppers Jul 14 '10 at 11:38
Great answer. Worked for me. However, I had a small question. How do I access the second most frequent colour in the case that black is the most frequent and I wish to ignore it? – frakman1 Dec 24 '15 at 6:54
@frakman1, argmax() is just a convenience function that gives the first. What you'd need to do is sort the counts array (keeping track of the original indices), then pick the second (or second last) entry rather than the first (which is effectively what argmax does). – Peter Hansen Jan 6 at 19:45

Python Imaging Library has method getcolors on Image objects:

im.getcolors() => a list of (count, color) tuples or None

I guess you can still try resizing the image before that and see if it performs any better.

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You could use PIL to repeatedly resize the image down by a factor of 2 in each dimension until it reaches 1x1. I don't know what algorithm PIL uses for downscaling by large factors, so going directly to 1x1 in a single resize might lose information. It might not be the most efficient, but it will give you the "average" color of the image.

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To add to Peter's answer, if PIL is giving you an image with mode "P" or pretty much any mode that isn't "RGBA", then you need to apply an alpha mask to convert it to RGBA. You can do that pretty easily with:

if im.mode == 'P':
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Below is a c++ Qt based example to guess the predominant image color. You can use PyQt and translate the same to Python equivalent.

#include <Qt/QtGui>
#include <Qt/QtCore>
#include <QtGui/QApplication>

int main(int argc, char** argv)
    QApplication app(argc, argv);
    QPixmap pixmap("logo.png");
    QImage image = pixmap.toImage();
    QRgb col;
    QMap<QRgb,int> rgbcount;
    QRgb greatest = 0;

    int width = pixmap.width();
    int height = pixmap.height();

    int count = 0;
    for (int i = 0; i < width; ++i)
        for (int j = 0; j < height; ++j)
            col = image.pixel(i, j);
            if (rgbcount.contains(col)) {
                rgbcount[col] = rgbcount[col] + 1;
            else  {
                rgbcount[col] = 1;

            if (rgbcount[col] > count)  {
                greatest = col;
                count = rgbcount[col];

    qDebug() << count << greatest;
    return app.exec();
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If you're still looking for an answer, here's what worked for me, albeit not terribly efficient:

from PIL import Image

def compute_average_image_color(img):
    width, height = img.size

    r_ave = 0
    g_ave = 0
    b_ave = 0

    for x in range(0, width):
        for y in range(0, height):
            r, g, b = img.getpixel((x,y))
            r_ave = (r + r_ave) / 2
            g_ave = (g + g_ave) / 2
            b_ave = (b + b_ave) / 2

    return (r_ave, g_ave, b_ave)

img ='image.png')
#img = img.resize((50,50))  # Small optimization
average_color = compute_average_image_color(img)
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protected by jamylak Mar 26 '15 at 7:15

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