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I have a list of RGB triplets, and I'd like to plot them in such a way that they form something like a spectrum.

I've converted them to HSV, which people seem to recommend.

from PIL import Image, ImageDraw
import colorsys

def make_rainbow_rgb(colors, width, height):
    """colors is an array of RGB tuples, with values between 0 and 255"""

    img ="RGBA", (width, height))
    canvas = ImageDraw.Draw(img)

    def hsl(x):
        to_float = lambda x : x / 255.0
        (r, g, b) = map(to_float, x)
        h, s, l = colorsys.rgb_to_hsv(r,g,b)
        h = h if 0 < h else 1 # 0 -> 1
        return h, s, l

    rainbow = sorted(colors, key=hsl)

    dx = width / float(len(colors)) 
    x = 0
    y = height / 2.0
    for rgb in rainbow:
        canvas.line((x, y, x + dx, y), width=height, fill=rgb)
        x += dx

However, the result doesn't look very much like a nice rainbow-y spectrum. I suspect I need to either convert to a different color space or handle the HSL triplet differently.

this doesn't look like a spectrum

Does anyone know what I need to do to make this data look roughly like a rainbow?


I was playing around with Hilbert curves and revisited this problem. Sorting the RGB values (same colors in both images) by their position along a Hilbert curve yields an interesting (if still not entirely satisfying) result:

RGB values sorted along a Hilbert curve.

share|improve this question
Please read this, then reconsider that you're doing: Spectrum is a single wavelength value, not HSL triple or anything like it. The equation isn't simple and all RGB colors do NOT have a place on the spectrum. Also, this may be helpful: You really need to rethink what you're doing. – S.Lott Jun 2 '11 at 2:24
@S.Lott -- yeah, I'm aware that technically this is a fool's errand. I don't really need anything related to physical light, just something that exhibits a maximally pleasing gradient (i.e. minimizes perceptual discontinuity). – Jason Sundram Jun 2 '11 at 4:42
Update -- I've decided to plot the colors on two axes, hue and saturation, allowing brightness to vary naturally. The results look good (but take up more room) – Jason Sundram Jun 17 '11 at 20:41
if you are looking for real spectral colors look especially the R,G,B graphs and try to sort the colors in similar manner. and then reorder "same" colors by intensities so you do not have too much bumps... – Spektre Oct 23 '15 at 8:09
up vote 11 down vote accepted

You're trying to convert a three-dimensional space into a one-dimensional space. There's no guarantee that you can make a pleasing rainbow out of it, as Oli says.

What you can do is "bucket" the colors into a few different categories based on saturation and value/lightness, and then sort within the categories, to get several independent gradients. For example, high-saturation colors first for the classic rainbow, then mid-saturation high-value colors (pastels), then low-saturation (grays).

Alternately, if all you care about is the rainbow, convert to hsl, then slam saturation to 1.0 and value to 0.5, convert back to rgb and render that instead of the original color.

share|improve this answer
I like the idea of separate rainbows. I'll play with that. Thanks – Jason Sundram Jun 2 '11 at 4:38
As rephorm say in is answer, you can use Hibert curve to reduce 3D to 2D space. – gagarine Jul 9 '15 at 11:45

Presumably you are sorting by hue (i.e. H)? That will give a nice result if S and L (or V) are constant, but if they are varying independently, then you will get a bit of a mess!

share|improve this answer
Yeah, I'm sorting by h, then s, then l, and the variability of those last 2 leads to a mess. I'm wondering if there's some function of h, s, and l that will make something pretty. – Jason Sundram Jun 2 '11 at 0:54
@Jason: In general, no. As @Russell says in his answer, you're trying to fold a 3D space into a 1D line. You won't be able to avoid discontinuities, unless you actually modify your input colours. – Oliver Charlesworth Jun 2 '11 at 1:01

An interesting method for reducing dimensionality of color spaces uses the space-filling Hilbert curve. Two relevant articles are:

They both consider 3d -> 2d reduction, but the intermediate step of mapping to the 1d curve could be a solution to your problem.

share|improve this answer
Thanks for 2 very interesting links! – Jason Sundram Apr 7 '12 at 16:39
Annoter exemple using Hilbert curve to sort image's pixels: – gagarine Jul 9 '15 at 11:41

Here are some rainbows I made recently, you can modify the idea to do what you want

import Image, ImageDraw, sys
from scipy import ones
from matplotlib import pyplot as p

strip_h, strip_w = 100, 720
strip = 255*ones((strip_h,strip_w,3), dtype='uint8')
image_val = Image.fromarray(strip)
image_sat = Image.fromarray(strip)
draw0 = ImageDraw.Draw(image_val)
draw1 = ImageDraw.Draw(image_sat)
for y in xrange(strip_h):
  for x in xrange(strip_w):
    draw0.point([x, y], fill='hsl(%d,%d%%,%d%%)'%(x%360,y,50))
    draw1.point([x, y], fill='hsl(%d,%d%%,%d%%)'%(x%360,100,y))

share|improve this answer
this code fills space with a nice range of colors. My problem is that I have a list of colors that I want to rainbow-ify. Kind of the opposite problem. Thanks for the code, though. – Jason Sundram Jun 8 '11 at 17:37

This seems incorrect.

canvas.line((x, y, x + dx, y), width=height, fill=rgb)

Try this.

canvas.rectangle([(x, y), (x+dx, y+height)], fill=rgb)
share|improve this answer
They both produce the same thing, although I'll grant you that it makes more sense to draw a rectangle using 'rectangle' than it does to make a fat line. – Jason Sundram Jun 2 '11 at 15:34

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