Using Python PIL, I'm trying to adjust the hue of a given image.

I'm not very comfortable with the jargon of graphics, so what I mean by “adjusting hue” is doing the Photoshop operation called “Hue/saturation”: this is to change the color of the image uniformly as shown below:

  • Original: Original
  • With hue adjusted to +180 (red): hue: -180
  • With hue adjusted to -78 (green): hue: -78

FYI, Photoshop uses a scale of -180 to +180 for this hue setting (where -180 equals +180), that may represents the HSL hue scale (expressed in 0-360 degree).

What I'm looking for is a function that, given an PIL image and a float hue within [0, 1] (or int within [0, 360], it doesn't matter), returns the image with its hue shifted by hue as in the example above.

What I've done so far is ridiculous and obviously doesn't give the desired result. It just half-blend my original image with a color-filled layer.

import Image

im ='tweeter.png')
layer ='RGB', im.size, 'red') # "hue" selection is done by choosing a color...
output = Image.blend(im, layer, 0.5)'output.png', 'PNG')

(Please-don't-laugh-at-) result: output.png

Thanks in advance!

Solution: here is the unutbu code updated so it fits exactly what I've described.

import Image
import numpy as np
import colorsys

rgb_to_hsv = np.vectorize(colorsys.rgb_to_hsv)
hsv_to_rgb = np.vectorize(colorsys.hsv_to_rgb)

def shift_hue(arr, hout):
    r, g, b, a = np.rollaxis(arr, axis=-1)
    h, s, v = rgb_to_hsv(r, g, b)
    h = hout
    r, g, b = hsv_to_rgb(h, s, v)
    arr = np.dstack((r, g, b, a))
    return arr

def colorize(image, hue):
    Colorize PIL image `original` with the given
    `hue` (hue within 0-360); returns another PIL image.
    img = image.convert('RGBA')
    arr = np.array(np.asarray(img).astype('float'))
    new_img = Image.fromarray(shift_hue(arr, hue/360.).astype('uint8'), 'RGBA')

    return new_img
  • This might help -… – arunkumar Sep 1 '11 at 17:49
  • As will this -… – Paul Sep 1 '11 at 18:30
  • in colorize(myimage, hueshift), myimage has to be a pil image so a convertion from numpy array to PIl must be performed with: Image.fromarray(myRGBimage) . Great ! – Jean-Pat Mar 19 '14 at 20:19
  • Note that your hue shift function doesn't actually hue shift -- it sets a particular hue (h = hout), meaning your resulting image will be colorized to a single color. – Mala Apr 8 at 21:09
up vote 17 down vote accepted

There is Python code to convert RGB to HSV (and vice versa) in the colorsys module in the standard library. My first attempt used


to vectorize those functions. Unfortunately, using np.vectorize results in rather slow code.

I was able to obtain roughly a 5 times speed up by translating colorsys.rgb_to_hsv and colorsys.hsv_to_rgb into native numpy operations.

import Image
import numpy as np

def rgb_to_hsv(rgb):
    # Translated from source of colorsys.rgb_to_hsv
    # r,g,b should be a numpy arrays with values between 0 and 255
    # rgb_to_hsv returns an array of floats between 0.0 and 1.0.
    rgb = rgb.astype('float')
    hsv = np.zeros_like(rgb)
    # in case an RGBA array was passed, just copy the A channel
    hsv[..., 3:] = rgb[..., 3:]
    r, g, b = rgb[..., 0], rgb[..., 1], rgb[..., 2]
    maxc = np.max(rgb[..., :3], axis=-1)
    minc = np.min(rgb[..., :3], axis=-1)
    hsv[..., 2] = maxc
    mask = maxc != minc
    hsv[mask, 1] = (maxc - minc)[mask] / maxc[mask]
    rc = np.zeros_like(r)
    gc = np.zeros_like(g)
    bc = np.zeros_like(b)
    rc[mask] = (maxc - r)[mask] / (maxc - minc)[mask]
    gc[mask] = (maxc - g)[mask] / (maxc - minc)[mask]
    bc[mask] = (maxc - b)[mask] / (maxc - minc)[mask]
    hsv[..., 0] =
        [r == maxc, g == maxc], [bc - gc, 2.0 + rc - bc], default=4.0 + gc - rc)
    hsv[..., 0] = (hsv[..., 0] / 6.0) % 1.0
    return hsv

def hsv_to_rgb(hsv):
    # Translated from source of colorsys.hsv_to_rgb
    # h,s should be a numpy arrays with values between 0.0 and 1.0
    # v should be a numpy array with values between 0.0 and 255.0
    # hsv_to_rgb returns an array of uints between 0 and 255.
    rgb = np.empty_like(hsv)
    rgb[..., 3:] = hsv[..., 3:]
    h, s, v = hsv[..., 0], hsv[..., 1], hsv[..., 2]
    i = (h * 6.0).astype('uint8')
    f = (h * 6.0) - i
    p = v * (1.0 - s)
    q = v * (1.0 - s * f)
    t = v * (1.0 - s * (1.0 - f))
    i = i % 6
    conditions = [s == 0.0, i == 1, i == 2, i == 3, i == 4, i == 5]
    rgb[..., 0] =, [v, q, p, p, t, v], default=v)
    rgb[..., 1] =, [v, v, v, q, p, p], default=t)
    rgb[..., 2] =, [v, p, t, v, v, q], default=p)
    return rgb.astype('uint8')

def shift_hue(arr,hout):
    return rgb

img ='tweeter.png').convert('RGBA')
arr = np.array(img)

if __name__=='__main__':
    green_hue = (180-78)/360.0
    red_hue = (180-180)/360.0

    new_img = Image.fromarray(shift_hue(arr,red_hue), 'RGBA')'tweeter_red.png')

    new_img = Image.fromarray(shift_hue(arr,green_hue), 'RGBA')'tweeter_green.png')


enter image description here


enter image description here

  • So it indeed requires some numpy array manipulation… I thought it would have required less operations but, well, it works perfectly. Thanks. – zopieux Sep 1 '11 at 19:11
  • As you convert the image to RGB right from the beginning, I believe there is no transparency support there. Nevertheless, I think a simple alpha extraction before the operations, followed by a putalpha() on the final result should do the trick! – zopieux Sep 1 '11 at 19:21
  • @Zopieux: I changed the code to handle RGBA, so no putalpha is necessary. – unutbu Sep 1 '11 at 20:23
  • ok, I've updated the solution. – zopieux Sep 1 '11 at 21:03
  • 1
    Isn't there a bug in there: The current way the maximum in rgb_to_hsv is computed, using the slice rgb[...,:2] only the R and G channel are considered. It should probably be rgb[...,:3] – Michael Mauderer Dec 3 '12 at 13:31

With a recent copy of Pillow, one should probably use

def rgb2hsv(image):
    return image.convert('HSV')

Good question. PIL does not convert to to a HSV or HSL colorspace, but this is the conversion you need to do in order to alter the hue without any changes to the lightness and saturation of the image.

What you need to do is convert to HSV, then increment all the H values by some degree, then convert back to RGB.

Half the work is done for you in an answer (by me) some time ago. It employs another python module called NumPy and converts RGB colorspace to HSV. It would not be too much trouble to write the reverse conversion.

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