'Converting an RGB color tuple to a hexidecimal string
I need to convert (0, 128, 64)
to something like this "#008040"
. I'm not sure what to call the latter, making searching difficult.
Solution 1:[1]
Use the format operator %
:
>>> '#%02x%02x%02x' % (0, 128, 64)
'#008040'
Note that it won't check bounds...
>>> '#%02x%02x%02x' % (0, -1, 9999)
'#00-1270f'
Solution 2:[2]
def clamp(x):
return max(0, min(x, 255))
"#{0:02x}{1:02x}{2:02x}".format(clamp(r), clamp(g), clamp(b))
This uses the preferred method of string formatting, as described in PEP 3101. It also uses min()
and max
to ensure that 0 <= {r,g,b} <= 255
.
Update added the clamp function as suggested below.
Update From the title of the question and the context given, it should be obvious that this expects 3 ints in [0,255] and will always return a color when passed 3 such ints. However, from the comments, this may not be obvious to everyone, so let it be explicitly stated:
Provided three
int
values, this will return a valid hex triplet representing a color. If those values are between [0,255], then it will treat those as RGB values and return the color corresponding to those values.
Solution 3:[3]
This is an old question but for information, I developed a package with some utilities related to colors and colormaps and contains the rgb2hex function you were looking to convert triplet into hexa value (which can be found in many other packages, e.g. matplotlib). It's on pypi
pip install colormap
and then
>>> from colormap import rgb2hex
>>> rgb2hex(0, 128, 64)
'##008040'
Validity of the inputs is checked (values must be between 0 and 255).
Solution 4:[4]
I have created a full python program for it the following functions can convert rgb to hex and vice versa.
def rgb2hex(r,g,b):
return "#{:02x}{:02x}{:02x}".format(r,g,b)
def hex2rgb(hexcode):
return tuple(map(ord,hexcode[1:].decode('hex')))
You can see the full code and tutorial at the following link : RGB to Hex and Hex to RGB conversion using Python
Solution 5:[5]
triplet = (0, 128, 64)
print '#'+''.join(map(chr, triplet)).encode('hex')
or
from struct import pack
print '#'+pack("BBB",*triplet).encode('hex')
python3 is slightly different
from base64 import b16encode
print(b'#'+b16encode(bytes(triplet)))
Solution 6:[6]
I'm truly surprised no one suggested this approach:
For Python 2 and 3:
'#' + ''.join('{:02X}'.format(i) for i in colortuple)
Python 3.6+:
'#' + ''.join(f'{i:02X}' for i in colortuple)
As a function:
def hextriplet(colortuple):
return '#' + ''.join(f'{i:02X}' for i in colortuple)
color = (0, 128, 64)
print(hextriplet(color))
#008040
Solution 7:[7]
you can use lambda and f-strings(available in python 3.6+)
rgb2hex = lambda r,g,b: f"#{r:02x}{g:02x}{b:02x}"
hex2rgb = lambda hx: (int(hx[0:2],16),int(hx[2:4],16),int(hx[4:6],16))
usage
rgb2hex(r,g,b) #output = #hexcolor
hex2rgb("#hex") #output = (r,g,b) hexcolor must be in #hex format
Solution 8:[8]
In Python 3.6, you can use f-strings to make this cleaner:
rgb = (0,128, 64)
f'#{rgb[0]:02x}{rgb[1]:02x}{rgb[2]:02x}'
Of course you can put that into a function, and as a bonus, values get rounded and converted to int:
def rgb2hex(r,g,b):
return f'#{int(round(r)):02x}{int(round(g)):02x}{int(round(b)):02x}'
rgb2hex(*rgb)
Solution 9:[9]
Here is a more complete function for handling situations in which you may have RGB values in the range [0,1] or the range [0,255].
def RGBtoHex(vals, rgbtype=1):
"""Converts RGB values in a variety of formats to Hex values.
@param vals An RGB/RGBA tuple
@param rgbtype Valid valus are:
1 - Inputs are in the range 0 to 1
256 - Inputs are in the range 0 to 255
@return A hex string in the form '#RRGGBB' or '#RRGGBBAA'
"""
if len(vals)!=3 and len(vals)!=4:
raise Exception("RGB or RGBA inputs to RGBtoHex must have three or four elements!")
if rgbtype!=1 and rgbtype!=256:
raise Exception("rgbtype must be 1 or 256!")
#Convert from 0-1 RGB/RGBA to 0-255 RGB/RGBA
if rgbtype==1:
vals = [255*x for x in vals]
#Ensure values are rounded integers, convert to hex, and concatenate
return '#' + ''.join(['{:02X}'.format(int(round(x))) for x in vals])
print(RGBtoHex((0.1,0.3, 1)))
print(RGBtoHex((0.8,0.5, 0)))
print(RGBtoHex(( 3, 20,147), rgbtype=256))
print(RGBtoHex(( 3, 20,147,43), rgbtype=256))
Solution 10:[10]
Note that this only works with python3.6 and above.
def rgb2hex(color):
"""Converts a list or tuple of color to an RGB string
Args:
color (list|tuple): the list or tuple of integers (e.g. (127, 127, 127))
Returns:
str: the rgb string
"""
return f"#{''.join(f'{hex(c)[2:].upper():0>2}' for c in color)}"
The above is the equivalent of:
def rgb2hex(color):
string = '#'
for value in color:
hex_string = hex(value) # e.g. 0x7f
reduced_hex_string = hex_string[2:] # e.g. 7f
capitalized_hex_string = reduced_hex_string.upper() # e.g. 7F
string += capitalized_hex_string # e.g. #7F7F7F
return string
Solution 11:[11]
def RGB(red,green,blue): return '#%02x%02x%02x' % (red,green,blue)
background = RGB(0, 128, 64)
I know one-liners in Python aren't necessarily looked upon kindly. But there are times where I can't resist taking advantage of what the Python parser does allow. It's the same answer as Dietrich Epp's solution (the best), but wrapped up in a single line function. So, thank you Dietrich!
I'm using it now with tkinter :-)
Solution 12:[12]
You can also use bit wise operators which is pretty efficient, even though I doubt you'd be worried about efficiency with something like this. It's also relatively clean. Note it doesn't clamp or check bounds. This has been supported since at least Python 2.7.17.
hex(r << 16 | g << 8 | b)
And to change it so it starts with a # you can do:
"#" + hex(243 << 16 | 103 << 8 | 67)[2:]
Solution 13:[13]
There is a package called webcolors. https://github.com/ubernostrum/webcolors
It has a method webcolors.rgb_to_hex
>>> import webcolors
>>> webcolors.rgb_to_hex((12,232,23))
'#0ce817'
Solution 14:[14]
''.join('%02x'%i for i in input)
can be used for hex conversion from int number
Solution 15:[15]
If typing the formatting string three times seems a bit verbose...
The combination of bit shifts and an f-string will do the job nicely:
# Example setup.
>>> r, g, b = 0, 0, 195
# Create the hex string.
>>> f'#{r << 16 | g << 8 | b:06x}'
'#0000c3'
This also illustrates a method by which 'leading' zero bits are not dropped, if either the red or green channels are zero.
Sources
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Source: Stack Overflow