This document describes the current stable version of Celery (5.3). For development docs, go here.

Source code for celery.utils.term

"""Terminals and colors."""
import base64
import codecs
import os
import platform
import sys
from functools import reduce

__all__ = ('colored',)

OP_SEQ = '\033[%dm'
RESET_SEQ = '\033[0m'
COLOR_SEQ = '\033[1;%dm'

IS_WINDOWS = platform.system() == 'Windows'

TERM = os.environ.get('TERM')
TERM_IS_SCREEN = TERM and TERM.startswith('screen')

# tmux requires unrecognized OSC sequences to be wrapped with DCS tmux;
# <sequence> ST, and for all ESCs in <sequence> to be replaced with ESC ESC.
# It only accepts ESC backslash for ST.
_IMG_PRE = '\033Ptmux;\033\033]' if TERM_IS_SCREEN else '\033]'
_IMG_POST = '\a\033\\' if TERM_IS_SCREEN else '\a'

def fg(s):
    return COLOR_SEQ % s

[docs]class colored: """Terminal colored text. Example: >>> c = colored(enabled=True) >>> print(str('the quick '),'brown ', c.bold('fox ')), ... c.magenta(c.underline('jumps over')), ... c.yellow(' the lazy '), ...'dog '))) """ def __init__(self, *s, **kwargs): self.s = s self.enabled = not IS_WINDOWS and kwargs.get('enabled', True) self.op = kwargs.get('op', '') self.names = { 'black':, 'red':, 'green':, 'yellow': self.yellow, 'blue':, 'magenta': self.magenta, 'cyan': self.cyan, 'white': self.white, } def _add(self, a, b): return str(a) + str(b) def _fold_no_color(self, a, b): try: A = a.no_color() except AttributeError: A = str(a) try: B = b.no_color() except AttributeError: B = str(b) return ''.join((str(A), str(B)))
[docs] def no_color(self): if self.s: return str(reduce(self._fold_no_color, self.s)) return ''
[docs] def embed(self): prefix = '' if self.enabled: prefix = self.op return ''.join((str(prefix), str(reduce(self._add, self.s))))
def __str__(self): suffix = '' if self.enabled: suffix = RESET_SEQ return str(''.join((self.embed(), str(suffix))))
[docs] def node(self, s, op): return self.__class__(enabled=self.enabled, op=op, *s)
[docs] def black(self, *s): return self.node(s, fg(30 + BLACK))
[docs] def red(self, *s): return self.node(s, fg(30 + RED))
[docs] def green(self, *s): return self.node(s, fg(30 + GREEN))
[docs] def yellow(self, *s): return self.node(s, fg(30 + YELLOW))
[docs] def blue(self, *s): return self.node(s, fg(30 + BLUE))
[docs] def magenta(self, *s): return self.node(s, fg(30 + MAGENTA))
[docs] def cyan(self, *s): return self.node(s, fg(30 + CYAN))
[docs] def white(self, *s): return self.node(s, fg(30 + WHITE))
def __repr__(self): return repr(self.no_color())
[docs] def bold(self, *s): return self.node(s, OP_SEQ % 1)
[docs] def underline(self, *s): return self.node(s, OP_SEQ % 4)
[docs] def reverse(self, *s): return self.node(s, OP_SEQ % 7)
[docs] def bright(self, *s): return self.node(s, OP_SEQ % 8)
[docs] def ired(self, *s): return self.node(s, fg(40 + RED))
[docs] def igreen(self, *s): return self.node(s, fg(40 + GREEN))
[docs] def iyellow(self, *s): return self.node(s, fg(40 + YELLOW))
[docs] def iblue(self, *s): return self.node(s, fg(40 + BLUE))
[docs] def imagenta(self, *s): return self.node(s, fg(40 + MAGENTA))
[docs] def icyan(self, *s): return self.node(s, fg(40 + CYAN))
[docs] def iwhite(self, *s): return self.node(s, fg(40 + WHITE))
[docs] def reset(self, *s): return self.node(s or [''], RESET_SEQ)
def __add__(self, other): return str(self) + str(other)
def supports_images(): return sys.stdin.isatty() and ITERM_PROFILE def _read_as_base64(path): with, mode='rb') as fh: encoded = base64.b64encode( return encoded if type(encoded) == 'str' else encoded.decode('ascii') def imgcat(path, inline=1, preserve_aspect_ratio=0, **kwargs): return '\n%s1337;File=inline=%d;preserveAspectRatio=%d:%s%s' % ( _IMG_PRE, inline, preserve_aspect_ratio, _read_as_base64(path), _IMG_POST)