For a Django App, each “member” is assigned a color to help identify them. Their color is stored in the database and then printed/copied into the HTML when it is needed. The only issue is that I am unsure how to generate random Hex colors in python/django. It’s easy enough to generate RGB colors, but to store them I would either need to a) make three extra columns in my “Member” model or b) store them all in the same column and use commas to separate them, then, later, parse the colors for the HTML. Neither of these are very appealing, so, again, I’m wondering how to generate random Hex colors in python/django.
Answers:
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Method 1
import random
r = lambda: random.randint(0,255)
print('#%02X%02X%02X' % (r(),r(),r()))
Method 2
Here is a simple way:
import random color = "%06x" % random.randint(0, 0xFFFFFF)
To generate a random 3 char color:
import random color = "%03x" % random.randint(0, 0xFFF)
%x in C-based languages is a string formatter to format integers as hexadecimal strings while 0x is the prefix to write numbers in base-16.
Colors can be prefixed with “#” if needed (CSS style)
Method 3
Store it as a HTML color value:
Updated: now accepts both integer (0-255) and float (0.0-1.0) arguments. These will be clamped to their allowed range.
def htmlcolor(r, g, b):
def _chkarg(a):
if isinstance(a, int): # clamp to range 0--255
if a < 0:
a = 0
elif a > 255:
a = 255
elif isinstance(a, float): # clamp to range 0.0--1.0 and convert to integer 0--255
if a < 0.0:
a = 0
elif a > 1.0:
a = 255
else:
a = int(round(a*255))
else:
raise ValueError('Arguments must be integers or floats.')
return a
r = _chkarg(r)
g = _chkarg(g)
b = _chkarg(b)
return '#{:02x}{:02x}{:02x}'.format(r,g,b)
Result:
In [14]: htmlcolor(250,0,0) Out[14]: '#fa0000' In [15]: htmlcolor(127,14,54) Out[15]: '#7f0e36' In [16]: htmlcolor(0.1, 1.0, 0.9) Out[16]: '#19ffe5'
Method 4
little late to the party,
import random chars = '0123456789ABCDEF' ['#'+''.join(random.sample(chars,6)) for i in range(N)]
Method 5
This has been done before. Rather than implementing this yourself, possibly introducing errors, you may want to use a ready library, for example Faker. Have a look at the color providers, in particular hex_digit.
In [1]: from faker import Factory In [2]: fake = Factory.create() In [3]: fake.hex_color() Out[3]: u'#3cae6a' In [4]: fake.hex_color() Out[4]: u'#5a9e28'
Method 6
Just store them as an integer with the three channels at different bit offsets (just like they are often stored in memory):
value = (red << 16) + (green << 8) + blue
(If each channel is 0-255). Store that integer in the database and do the reverse operation when you need to get back to the distinct channels.
Method 7
import random
def hex_code_colors():
a = hex(random.randrange(0,256))
b = hex(random.randrange(0,256))
c = hex(random.randrange(0,256))
a = a[2:]
b = b[2:]
c = c[2:]
if len(a)<2:
a = "0" + a
if len(b)<2:
b = "0" + b
if len(c)<2:
c = "0" + c
z = a + b + c
return "#" + z.upper()
Method 8
So many ways to do this, so here’s a demo using “colorutils“.
pip install colorutils
It is possible to generate random values in (RGB, HEX, WEB, YIQ, HSV).
# docs and downloads at
# https://pypi.python.org/pypi/colorutils/
from colorutils import random_web
from tkinter import Tk, Button
mgui = Tk()
mgui.geometry('150x28+400+200')
def rcolor():
rn = random_web()
print(rn) # for terminal watchers
cbutton.config(text=rn)
mgui.config(bg=rn)
cbutton = Button(text="Click", command=rcolor)
cbutton.pack()
mgui.mainloop()
I certainly hope that was helpful.
Method 9
import secrets
# generate 4 sets of 2-digit hex chars for a color with transparency
rgba = f"#{secrets.token_hex(4)}" # example return: "#ffff0000"
# generate 3 sets of 2-digit hex chars for a non-alpha color
rgb = f"#{secrets.token_hex(3)}" # example return: "#ab12ce"
Method 10
import random
def generate_color():
color = '#{:02x}{:02x}{:02x}'.format(*map(lambda x: random.randint(0, 255), range(3)))
return color
Method 11
Basically, this will give you a hashtag, a randint that gets converted to hex, and a padding of zeroes.
from random import randint
color = '#{:06x}'.format(randint(0, 256**3))
#Use the colors wherever you need!
Method 12
For generating random anything, take a look at the random module
I would suggest you use the module to generate a random integer, take it’s modulo 2**24, and treat the top 8 bits as R, that middle 8 bits as G and the bottom 8 as B.
It can all be accomplished with div/mod or bitwise operations.
Method 13
hex_digits = ['0','1','2','3','4','5','6','7','8','9','a','b','c','d','e','f']
digit_array = []
for i in xrange(6):
digit_array.append(hex_digits[randint(0,15)])
joined_digits = ''.join(digit_array)
color = '#' + joined_digits
Method 14
import random
def get_random_hex:
random_number = random.randint(0,16777215)
# convert to hexadecimal
hex_number = str(hex(random_number))
# remove 0x and prepend '#'
return'#'+ hex_number[2:]
Method 15
Would like to improve upon this solution as I found that it could generate color codes that have less than 6 characters. I also wanted to generate a function that would create a list that can be used else where such as for clustering in matplotlib.
import random
def get_random_hex:
random_number = random.randint(0,16777215)
# convert to hexadecimal
hex_number = str(hex(random_number))
# remove 0x and prepend '#'
return'#'+ hex_number[2:]
My proposal is :
import numpy as np
def color_generator (no_colors):
colors = []
while len(colors) < no_colors:
random_number = np.random.randint(0,16777215)
hex_number = format(random_number, 'x')
if len(hex_number) == 6:
hex_number = '#'+ hex_number
colors.append (hex_number)
return colors
Method 16
Here’s a simple code that I wrote based on what hexadecimal color notations represent:
import random
def getRandomCol():
r = hex(random.randrange(0, 255))[2:]
g = hex(random.randrange(0, 255))[2:]
b = hex(random.randrange(0, 255))[2:]
random_col = '#'+r+g+b
return random_col
The ‘#’ in the hexadecimal color code just represents that the number represented is just a hexadecimal number. What’s important is the next 6 digits. Pairs of 2 digits in those 6 hexadecimal digits represent the intensity of RGB (Red, Green, and Blue) each. The intensity of each color ranges between 0-255 and a combination of different intensities of RGB produces different colors.
For example, in #ff00ff, the first ff is equivalent to 255 in decimal, the next 00 is equivalent to 0 in decimal, and the last ff is equivalent to 255 in decimal. Therefore, #ff00ff in hexadecimal color coding is equivalent to RGB(255, 0, 255).
With this concept, here’s the explanation of my approach:
- Generated intensities of random numbers for each of
r,g
andb - Converted those intensities into hexadecimal
- Ignored the first 2 characters of each hexadecimal value
'0x' - Concatenated
'#'with the hexadecimal valuesr,gandb
intensities.
Feel free to refer to this link if you wanna know more about how colors work: https://hackernoon.com/hex-colors-how-do-they-work-d8cb935ac0f
Cheers!
Method 17
Hi, maybe i could help with the next function that generate random Hex colors :
from colour import Color
import random as random
def Hex_color():
L = '0123456789ABCDEF'
return Color('#'+ ''.join([random.choice(L) for i in range(6)][:]))
Method 18
from random import randbytes randbytes(3).hex()
output
f5f2c9
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