Skip to main content

ANSI colors for Python

Project description

travisci PyPI Package latest release Supported versions Supported implementations Wheel packaging support Test line coverage Test branch coverage

ANSI colors for Python

Add ANSI colors and decorations to your strings.

Example Usage

from __future__ import print_function  # accomodate Python 2
from colors import *

print(color('my string', fg='blue'))
print(color('some text', fg='red', bg='yellow', style='underline'))

The strings returned by color will have embedded ANSI code sequences stipulating text colors and styles. For example, the above code will print the strings:

'\x1b[34mmy string\x1b[0m'
'\x1b[31;43;4msome text\x1b[0m'

You can choose the foreground (text) color with the fg parameter, the background color with bg, and the style with style.

You can choose one of the 8 basic ANSI colors: black, red, green, yellow, blue, magenta, cyan, and white, plus a special default which is display-specific, but usually a rational “no special color” setting.

There are other ways to specify colors. Many devices support an idiosyncratic 256-color scheme developed as an extension to the original ANSI codes for the xterm terminal emulator. Colors (or grays) from this larger palette can be specified via int value (0-255).

To see them all:

from __future__ import print_function
from colors import color

for i in range(256):
    print(color('Color #%d' % i, fg=i))

The included show_colors.py program is a much-expanded version of this idea that can be used to explore available color and style combinations on your terminal or output device.

24-bit Color and CSS Compatibility

Modern terminals go even further than the xterm 256, often supporting a full 24-bit RGB color scheme. You can provide a full RGB value several ways:

  • with a 3-element tuple or list of int, each valued 0 to 255 (e.g. (255, 218, 185)),

  • a string containing a CSS-compatible color name (e.g. 'peachpuff'),

  • a string containing a CSS-style hex value (e.g. '#aaa' or '#8a2be2')

  • a string containing a CSS-style RGB notation (e.g. 'rgb(102,51,153)')

These forms can be mixed and matched at will:

print(color('orange on gray', 'orange', 'gray'))
print(color('nice color', 'white', '#8a2be2'))

Note that any color name defined in the basic ANSI color set takes primacy over the CSS color names. Combined with the fact that terminals do not always agree which precise tone of blue should qualify as ANSI blue, there can be some ambiguity regarding the named colors. If you need full precision, specify the RGB color exactly. The parse_rgb function can be used to identify the correct definition according to the CSS standards.

Caveats

Unfortunately there is no guarantee that every terminal will support all the colors and styles ANSI ostensibly defines. In fact, most implement a rather small subset. Colors are better supported than styles, for which you might get one or two of the most popular such as bold or underline. Might.

Whatever colors and styles are supported, there is no guarantee they will be accurately rendered. Even at this late date, over fifty years after the codes began to be standardized, support from terminals and output devices is limited, fragemented, and piecemeal.

ANSI codes evolved in an entirely different historical context from today’s. Both the Web and the idea of broad standardization were decades in the future. Display technology was low-resolution, colors were limited on the rare occasions they were present, and color/style fidelity was not a major consideration. Vendors thought little or nothing of creating their own proprietary codes, implementing functions differently from other vendors, and/or co-opting codes previously in use for something else. Practical ANSI reference materials include many phrases such as ‘hardly ever supported’ and ‘non-standard.’

We still use ANSI codes today not because they’re especially good, but because they’re the best, most-standard approach that pre-Web displays even remotely agreed upon. Even deep into the Web era, text output endures as an important means of human-computer interaction. The good news, such is it is: ANSI’s color and style specifications (“SGR” or “Select Graphic Rendition” in ANSI terminology) are the most-used and best-adhered-to portion of the whole ANSI show.

More Examples

# use some partial functions

from __future__ import print_function # so works on Python 2 and 3 alike
from colors import red, green, blue

print(red('This is red'))
print(green('This is green'))
print(blue('This is blue'))

Optionally you can add a background color and/or styles.:

print(red('red on blue', bg='blue'))
print(green('green on black', bg='black', style='underline'))

You can use multiple styles at once. Separate them with a +.:

print(red('very important', style='bold+underline'))

You can additionally specify one of the supported styles: none, bold, faint, italic, underline, blink, blink2, negative, concealed, crossed. While most devices support only a few styles, unsupported styles are generally ignored, so the only harm done is your text is less pretty and/or formatted than you might like. A good general rule is to enjoy the formatting if you get it, but don’t depend on it–especially don’t depend on styles like blink (e.g. to highlight critical data) or concealed (e.g. to hide data). Most likely, they won’t.

If you use a style often, you may want to create your own named style:

from functools import partial
from colors import color

important = partial(color, fg='red', style='bold+underline'))

print(important('this is very important!'))

Utility Functions

In deailing with ANSI-styled text, it can be necessary to determine the “equivalent” text minus the styling. The function strip_color(s) does that, removing ANSI codes from s, returning its “plain text equivalent.”

You may also wish to determine the effective length of a string. If it contains ANSI codes, the builtin len() function will return the length including those codes, even though they are logically 0-length. So plain len(s) is probably not what you need. ansilen(s) in contrast returns the “effective” length of the string, including only the non-ANSI characters. ansilen(s) is equivalent to len(strip_color(s)),

License

colors is licensed under the ISC license.

Project details


Download files

Download the file for your platform. If you're not sure which to choose, learn more about installing packages.

Source Distribution

ansicolors-1.1.8.zip (23.0 kB view details)

Uploaded Source

Built Distribution

ansicolors-1.1.8-py2.py3-none-any.whl (13.8 kB view details)

Uploaded Python 2 Python 3

File details

Details for the file ansicolors-1.1.8.zip.

File metadata

  • Download URL: ansicolors-1.1.8.zip
  • Upload date:
  • Size: 23.0 kB
  • Tags: Source
  • Uploaded using Trusted Publishing? No

File hashes

Hashes for ansicolors-1.1.8.zip
Algorithm Hash digest
SHA256 99f94f5e3348a0bcd43c82e5fc4414013ccc19d70bd939ad71e0133ce9c372e0
MD5 9ca7e2396ffa2e20af023c6b83ab7b14
BLAKE2b-256 76317faed52088732704523c259e24c26ce6f2f33fbeff2ff59274560c27628e

See more details on using hashes here.

File details

Details for the file ansicolors-1.1.8-py2.py3-none-any.whl.

File metadata

File hashes

Hashes for ansicolors-1.1.8-py2.py3-none-any.whl
Algorithm Hash digest
SHA256 00d2dde5a675579325902536738dd27e4fac1fd68f773fe36c21044eb559e187
MD5 f357aa02db2466bc24ff1815cff1aeb3
BLAKE2b-256 5318a56e2fe47b259bb52201093a3a9d4a32014f9d85071ad07e9d60600890ca

See more details on using hashes here.

Supported by

AWS AWS Cloud computing and Security Sponsor Datadog Datadog Monitoring Fastly Fastly CDN Google Google Download Analytics Microsoft Microsoft PSF Sponsor Pingdom Pingdom Monitoring Sentry Sentry Error logging StatusPage StatusPage Status page