Is there a way to convert HSV color arguments to RGB type color arguments using pygame modules in python? I tried the following code, but it returns ridiculous values.

import colorsys
test_color = colorsys.hsv_to_rgb(359, 100, 100)

and this code returns the following nonsense

(100, -9900.0, -9900.0)

This obviously isn't RGB. What am I doing wrong?


That function expects decimal for s (saturation) and v (value), not percent. Divide by 100.

>>> import colorsys

# Using percent, incorrect
>>> test_color = colorsys.hsv_to_rgb(359,100,100)
>>> test_color
(100, -9900.0, -9900.0)

# Using decimal, correct
>>> test_color = colorsys.hsv_to_rgb(1,1,1)
>>> test_color
(1, 0.0, 0.0)

If you would like the non-normalized RGB tuple, here is a function to wrap the colorsys function.

def hsv2rgb(h,s,v):
    return tuple(round(i * 255) for i in colorsys.hsv_to_rgb(h,s,v))

Example functionality

>>> hsv2rgb(0.5,0.5,0.5)
(64, 128, 128)
  • Thanks. Is there any built in function to "denormalise" the RGB function? – AvZ Jul 20 '14 at 16:16
  • I don't know about an out-of-the-box function, but you could write one. Please see my latest edit for such a function. – CoryKramer Jul 20 '14 at 16:20
  • 3
    The Hue argument should also vary from 0-1 – Anand C U Jan 17 '18 at 4:57
  • Yep to echo what Anand C U and Paul Beloff have said you need to divide your Hue by 360 for example 125/360 (to get green). Otherwise you constantly get red. – aheigins Apr 6 '18 at 23:59

If you like performance, it's best to avoid imports and use your own optimized code

Here's the exact code from colorsys slightly modified to make the byte-code slightly faster:

    def hsv_to_rgb(h, s, v):
        if s == 0.0: return (v, v, v)
        i = int(h*6.) # XXX assume int() truncates!
        f = (h*6.)-i; p,q,t = v*(1.-s), v*(1.-s*f), v*(1.-s*(1.-f)); i%=6
        if i == 0: return (v, t, p)
        if i == 1: return (q, v, p)
        if i == 2: return (p, v, t)
        if i == 3: return (p, q, v)
        if i == 4: return (t, p, v)
        if i == 5: return (v, p, q)


>>> hsv_to_rgb(359,1,1)
[1, 0.0, 0.0]

Using an if-chain like above is actually faster than using elif

Using a wrapper, like in Cyber's answer, takes a few extra steps for the interpreter to perform.
To add, the for loop in Cyber's example is a real performance killer when used like that

If you want slightly more performance, simply do this:
(I won't say this is the best possible performance, but it's certainly better)

    def hsv_to_rgb(h, s, v):
        if s == 0.0: v*=255; return (v, v, v)
        i = int(h*6.) # XXX assume int() truncates!
        f = (h*6.)-i; p,q,t = int(255*(v*(1.-s))), int(255*(v*(1.-s*f))), int(255*(v*(1.-s*(1.-f)))); v*=255; i%=6
        if i == 0: return (v, t, p)
        if i == 1: return (q, v, p)
        if i == 2: return (p, v, t)
        if i == 3: return (p, q, v)
        if i == 4: return (t, p, v)
        if i == 5: return (v, p, q)

^ this guarantees int() output with a range of 255 (the input is still the same)

>>> hsv_to_rgb(359./360.,1,1)
(255, 0, 0)

TIP: stay away from 3rd-party where possible, try the direct approach if you can.
exculusions: compiled C extensions such as PIL or NumPy, or ctypes wrappers such as PyOpenGL (uses the DLL)

  • so... why am I down-rated?? why is there no comment telling me what I did wrong so I can better myself?? – Tcll Jan 10 '15 at 15:54
  • 2
    because your solution takes hue values from 0 to 1, but in your examples you use values from 0 to 360. – sfat Nov 25 '16 at 9:30
  • 2
    If we are talking about performance, I would stay away from lists and return tuples instead. – Matteo Italia Jun 15 '17 at 16:21
  • +Matteo Italia: after growing up a bit, I actually agree with you, if anyone (I'm on a phone) would like to edit this answer to return a tuple, feel free. – Tcll Jun 15 '17 at 20:29

The Hue argument should also vary from 0-1.

import colorsys
test_color = colorsys.hsv_to_rgb(359/360.0, 1, 1)
  • excellent comment, was wondering why i was constantly getting red!. – aheigins Apr 6 '18 at 23:58

I have prepared a vectorized version, it is cca 10x faster

def hsv_to_rgb(h, s, v):
    shape = h.shape
    i = int_(h*6.)
    f = h*6.-i

    q = f
    t = 1.-f
    i = ravel(i)
    f = ravel(f)

    t = ravel(t)
    q = ravel(q)

    clist = (1-s*vstack([zeros_like(f),ones_like(f),q,t]))*v

    #0:v 1:p 2:q 3:t
    order = array([[0,3,1],[2,0,1],[1,0,3],[1,2,0],[3,1,0],[0,1,2]])
    rgb = clist[order[i], arange(prod(shape))[:,None]]

    return rgb.reshape(shape+(3,))
  • 1
    NameError: name 'ravel' is not defined or I would upvote. – Tcll Jun 15 '17 at 20:32
  • Ravel is a numpy function. Add from numpy import * before the code. – Tomáš Odstrčil Jun 17 '17 at 10:12

If you are working with Numpy arrays then matplotlib.colors.hsv_to_rgb is quite direct:

import numpy as np
from matplotlib.colors import hsv_to_rgb
# This will create a nice image of varying hue and value
hsv = np.zeros((512, 512, 3))
hsv[..., 0] = np.linspace(0, 1, 512)
hsv[..., 1] = 1.
hsv[..., 2] = np.linspace(0, 1, 512)[:, np.newaxis]
rgb = hsv_to_rgb(hsv)

Note that the input and output images have values in the range [0, 1].

  • Thank you, this saved me a lot of time! – Anshul Rai Apr 22 '18 at 9:10

I found the following code to work with images represented as numpy ndarrays:

from skimage.io import imread
import matplotlib.colors as mcolors
img = imread( 'my_image.png' )
img_hsv = mcolors.rgb_to_hsv( img )
img_hsv = img_hsv / (1.0, 1.0, 255.0)

The last division was useful to convert to a floating representation between 0.0 and 1.0, as for some reason the last component originally ranged between 0 and 255.

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