Ansimarkup is an XML-like markup for producing colored terminal text.
from ansimarkup import ansiprint as print
print("<b>bold text</b>"))
print("<red>red text</red>", "<red,green>red text on a green background</red,green>")
print("<fg #ffaf00>orange text</fg #ffaf00>")The latest stable version of ansimarkup can be installed from pypi:
$ pip install ansimarkupfrom ansimarkup import parse, ansiprint
# parse() converts the tags to the corresponding ansi escape sequence.
parse("<b>bold</b> <d>dim</d>")
# ansiprint() works exactly like print(), but first runs parse() on all arguments.
ansiprint("<b>bold</b>", "<d>dim</d>")
ansiprint("<b>bold</b>", "<d>dim</d>", sep=":", file=sys.stderr)# Colors may be specified in one of several ways.
parse("<red>red foreground</red>")
parse("<RED>red background</RED>")
parse("<fg red>red foreground</fg red>")
parse("<bg red>red background</bg red>")
# Xterm, hex and rgb colors are accepted by the <fg> and <bg> tags.
parse("<fg 86>aquamarine foreground</fg 86>")
parse("<bg #00005f>dark blue background</bg #00005f>")
parse("<fg 0,95,0>dark green foreground</fg 0,95,0>")
# Tags may be nested.
parse("<r><Y>red text on a yellow foreground</Y></r>")
# The above may be more concisely written as:
parse("<r,y>red text on a yellow background</r,y>")
# This shorthand also supports style tags.
parse("<b,r,y>bold red text on a yellow background</b,r,y>")
parse("<b,r,>bold red text</b,r,>")
parse("<b,,y>bold regular text on a yellow background</b,,y>")
# Unrecognized tags are left as-is.
parse("<b><element1></element1></b>")For a list of markup tags, please refer to tags.py.
Custom tags or overrides for existing tags may be defined by creating a new
AnsiMarkup instance:
from ansimarkup import AnsiMarkup, parse
user_tags = {
# Add a new tag (e.g. we want <info> to expand to "<bold><green>").
"info": parse("<b><g>")
# The ansi escape sequence can be used directly.
"info": "e\x1b[32m\x1b[1m",
# Tag names may also be callables.
"err": lambda: parse("<r>")
# Colors may also be given convenient tag names.
"orange": parse("<fg #d78700>"),
# User-defined tags always take precedence over existing tags.
"bold": parse("<dim>")
}
am = AnsiMarkup(tags=user_tags)
am.parse("<info>bold green</info>")
am.ansiprint("<err>red</err>")
# Calling the instance is equivalent to calling its parse method.
am("<b>bold</b>") == am.parse("<b>bold</b>")Aligning formatted strings can be challenging because the length of the rendered string is different that the number of printable characters. Consider this example:
>>> a = '| {:30} |'.format('abc')
>>> b = '| {:30} |'.format(parse('<b>abc</b>'))
>>> print(a, b, sep='\n')
| abc |
| abc |This can be addressed by using the ansistring function or the
AnsiMarkup.string(markup) method, which has the following useful properties:
>>> s = ansistring('<b>abc</b>')
>>> print(repr(s), '->', s)
<b>abc</b> -> abc # abc is printed in bold
>>> len(s), len(am.parse('<b>abc</b>'), s.delta
3, 11, 8With the help of the delta property, it is easy to align the strings in the
above example:
>>> s = ansistring('<b>abc</b>')
>>> a = '| {:{width}} |'.format('abc', width=30)
>>> b = '| {:{width}} |'.format(s, width=(30 + s.delta))
>>> print(a, b, sep='\n')
| abc |
| abc |The default tag separators can be changed by passing the tag_sep argument to
AnsiMarkup:
from ansimarkup import AnsiMarkup
am = AnsiMarkup(tag_sep="{}")
am.parse("{b}{r}bold red{/b}{/r}")Markup tags can be removed using the strip() method:
from ansimarkup import AnsiMarkup
am = AnsiMarkup()
am.strip("<b><r>bold red</b></r>")The strict option instructs the parser to raise MismatchedTag if opening
tags don't have corresponding closing tags:
from ansimarkup import AnsiMarkup
am = AnsiMarkup(strict=True)
am.parse("<r><b>bold red")
# ansimarkup.MismatchedTag: opening tag "<r>" has no corresponding closing tagAnsimarkup may also be used on the command-line. This works as if all
arguments were passed to ansiprint():
$ python -m ansimarkup "<b>bold</b>" "<red>red</red>"
Ansimarkup also comes with a formatter for the standard library logging module. It can be used as:
import logging
from ansimarkup.logformatter import AnsiMarkupFormatter
log = logging.getLogger()
hdl = logging.StreamHandler()
fmt = AnsiMarkupFormatter()
hdl.setFormatter(fmt)
log.addHandler(hdl)
log.info("<b>bold text</b>")Ansimarkup uses the colorama library internally, which means that Windows support for ansi escape sequences is available by first running:
import colorama
colorama.init()For more information on Windows support, consult the "Usage" section of the colorama documentation.
While the focus of ansimarkup is convenience, it does try to keep processing to a minimum. The benchmark.py script attempts to benchmark different ansi escape code libraries:
Benchmark 1: <r><b>red bold</b></r> colorama 0.2998 μs termcolor 3.2339 μs colr 3.6483 μs ansimarkup 6.8679 μs pastel 28.8538 μs plumbum 53.5004 μs Benchmark 2: <r><b>red bold</b>red</r><b>bold</b> colorama 0.8269 μs termcolor 8.9296 μs ansimarkup 9.3099 μs colr 9.6244 μs pastel 62.2018 μs plumbum 120.8048 μs
Ansimarkup is a simple wrapper around colorama. It does very little in the way of validating that markup strings are well-formed. This is a conscious decision with the goal of keeping things simple and fast.
Unbalanced nesting, such as in the following example, will produce incorrect output:
<r><Y>1</r>2</Y>
- Many corner cases remain to be fixed.
- More elaborate testing. The current test suite mostly covers the "happy paths".
- Replace
tag_list.indexinsub_endwith something more efficient (i.e. something like an ordered MultiDict).
- pastel: bring colors to your terminal
- plumbum.colors: small yet feature-rich library for shell script-like programs in Python
- colr: easy terminal colors, with chainable methods
Ansimarkup is released under the terms of the Revised BSD License.