72

I want to convert a color tuple to a color name, like 'yellow' or 'blue'

>>> im = Image.open("test.jpg")
>>> n, color = max(im.getcolors(im.size[0]*im.size[1]))
>>> print color
(119, 172, 152)

Is there a simple way in python to do this?

5
  • 2
    I think I found the droids you're looking for... pypi.python.org/pypi/webcolors/…
    – mVChr
    Mar 14, 2012 at 0:19
  • 1
    I don't know if there's already a solution to this, but any such mapping will necessarily be heuristic and entirely subjective... Interesting question, though! Mar 14, 2012 at 0:21
  • 2
    Do you want precise colour names or approximations? For example, "green" is (obviously) (0,255,0). What would you like color((0,254,0)) to be?
    – Katriel
    Mar 14, 2012 at 0:25
  • 1
    @WillVousden not necessarily: some colours have official names.
    – Katriel
    Mar 14, 2012 at 0:25
  • Do you want the colors to be the same colors that are used when setting a font color in HTML (e.g., <font color = "red">Sample text</font>)? Jun 10, 2013 at 14:58

6 Answers 6

117

It looks like webcolors will allow you to do this:

rgb_to_name(rgb_triplet, spec='css3')

Convert a 3-tuple of integers, suitable for use in an rgb() color triplet, to its corresponding normalized color name, if any such name exists; valid values are html4, css2, css21 and css3, and the default is css3.

Example:

>>> rgb_to_name((0, 0, 0))
'black'

it is vice-versa-able:

>>> name_to_rgb('navy')
(0, 0, 128)

#To find the closest colour name:

However webcolors raises an exception if it can't find a match for the requested colour. I've written a little fix that delivers the closest matching name for the requested RGB colour. It matches by Euclidian distance in the RGB space.

import webcolors

def closest_colour(requested_colour):
    min_colours = {}
    for key, name in webcolors.CSS3_HEX_TO_NAMES.items():
        r_c, g_c, b_c = webcolors.hex_to_rgb(key)
        rd = (r_c - requested_colour[0]) ** 2
        gd = (g_c - requested_colour[1]) ** 2
        bd = (b_c - requested_colour[2]) ** 2
        min_colours[(rd + gd + bd)] = name
    return min_colours[min(min_colours.keys())]

def get_colour_name(requested_colour):
    try:
        closest_name = actual_name = webcolors.rgb_to_name(requested_colour)
    except ValueError:
        closest_name = closest_colour(requested_colour)
        actual_name = None
    return actual_name, closest_name

requested_colour = (119, 172, 152)
actual_name, closest_name = get_colour_name(requested_colour)

print("Actual colour name:", actual_name, ", closest colour name:", closest_name)

Output:

Actual colour name: None , closest colour name: cadetblue
3
  • 2
    It doesn't work for all RGB combinations like: print(webcolors.rgb_to_name((231, 201, 186))) throws error i.e. "ValueError: '#e7c9ba' has no defined color name in css3"
    – Asim
    Apr 12, 2020 at 13:06
  • 4
    @Asim, it looks like this code is for an earlier (probably Py2) version. For webcolors-1.11.1, you need to replace for key, name in webcolors.css3_hex_to_names.items(): with for name, key in webcolors.CSS3_HEX_TO_NAMES.items():. Then the rest of the code (aside from the print statement which just needs to be f-stringed and wrapped in parentheses) should work. Nov 17, 2020 at 23:26
  • 5
    @AndrewStewart for key, name in webcolors.CSS3_HEX_TO_NAMES.items(): worked for me with webcolors-1.11.1. I switched key and name. Feb 8, 2021 at 3:18
12

There is a program called pynche which can change RGB to colour name in English for Python.

You can try to use the method ColorDB.nearest() in ColorDB.py which can do what you want.

You can find more information about this method here : ColorDB Pynche

1
  • 1
    Provided link doesn't work anymore. Here you can find file ColorDB.py.
    – ands
    Jan 16, 2019 at 20:08
11

For those who, like me, want a more familiar colour name, you can use the CSS 2.1 colour names, also provided by webcolors:

  • aqua: #00ffff
  • black: #000000
  • blue: #0000ff
  • fuchsia: #ff00ff
  • green: #008000
  • grey: #808080
  • lime: #00ff00
  • maroon: #800000
  • navy: #000080
  • olive: #808000
  • purple: #800080
  • red: #ff0000
  • silver: #c0c0c0
  • teal: #008080
  • white: #ffffff
  • yellow: #ffff00
  • orange: #ffa500

Just use fraxel's excellent answer and code for getting the closest colour, adapted to CSS 2.1:

def get_colour_name(rgb_triplet):
    min_colours = {}
    for key, name in webcolors.css21_hex_to_names.items():
        r_c, g_c, b_c = webcolors.hex_to_rgb(key)
        rd = (r_c - rgb_triplet[0]) ** 2
        gd = (g_c - rgb_triplet[1]) ** 2
        bd = (b_c - rgb_triplet[2]) ** 2
        min_colours[(rd + gd + bd)] = name
    return min_colours[min(min_colours.keys())]
2
  • 4
    You can have a greater accuracy using the CSS4 list, which is provided by matplotlib.colors. For example import matplotlib.colors as mc and mycss4list = mc.CSS4_COLORS Jan 22, 2020 at 16:30
  • I had to use the constant CSS21_HEX_TO_NAMES (uppercase) to get this to work.
    – John Hunt
    Jul 19, 2022 at 12:19
3

A solution to your problem consists in mapping the RGB values to the HSL color space.

Once you have the color in the HSL color space you can use the H (hue) component to map it the color. Note that color is a somewhat subjective concept, so you would have to define which ranges of H corresponds to a given color.

2

The best solution I've found to solve this problem is the one provided by tux21b on this post:
find the colour name from a hexadecimal colour code
With the fix I've made (to avoid the division by zero error).
It is (from my understanding) an approximation calculation, that doesn't require to load a large set of data table to get an approaching value, and that allow to set your own set of needed colors.

1

I would just use a dictionary to figure out the base colors, and then find the closest one.:

def get_color_name(rgb):
colors = {
    "red": (255, 0, 0),
    "green": (0, 255, 0),
    "blue": (0, 0, 255),
    "yellow": (255, 255, 0),
    "magenta": (255, 0, 255),
    "cyan": (0, 255, 255),
    "black": (0, 0, 0),
    "white": (255, 255, 255)
}
min_distance = float("inf")
closest_color = None
for color, value in colors.items():
    distance = sum([(i - j) ** 2 for i, j in zip(rgb, value)])
    if distance < min_distance:
        min_distance = distance
        closest_color = color
return closest_color

# Testing
print(get_color_name((255, 0, 0)))  # red
print(get_color_name((0, 255, 0)))  # green
print(get_color_name((0, 0, 255)))  # blue

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