python-progressbar/progressbar/utils.py at develop · cairy/python-progressbar

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from __future__ import absolute_import

import atexit

import io

import os

import re

import sys

import logging

import datetime

from python_utils.time import timedelta_to_seconds, epoch, format_time

from python_utils.converters import scale_1024

from python_utils.terminal import get_terminal_size

import six

assert timedelta_to_seconds

assert get_terminal_size

assert format_time

assert scale_1024

assert epoch

ANSI_TERMS = (

'([xe]|bv)term',

'(sco)?ansi',

'cygwin',

'konsole',

'linux',

'rxvt',

'screen',

'tmux',

'vt(10[02]|220|320)',

)

ANSI_TERM_RE = re.compile('^({})'.format('|'.join(ANSI_TERMS)), re.IGNORECASE)

def is_ansi_terminal(fd, is_terminal=None): # pragma: no cover

if is_terminal is None:

# Jupyter Notebooks define this variable and support progress bars

if 'JPY_PARENT_PID' in os.environ:

is_terminal = True

# This works for newer versions of pycharm only. older versions there

# is no way to check.

elif os.environ.get('PYCHARM_HOSTED') == '1':

is_terminal = True

if is_terminal is None:

# check if we are writing to a terminal or not. typically a file object

# is going to return False if the instance has been overridden and

# isatty has not been defined we have no way of knowing so we will not

# use ansi. ansi terminals will typically define one of the 2

# environment variables.

try:

is_tty = fd.isatty()

# Try and match any of the huge amount of Linux/Unix ANSI consoles

if is_tty and ANSI_TERM_RE.match(os.environ.get('TERM', '')):

is_terminal = True

# ANSICON is a Windows ANSI compatible console

elif 'ANSICON' in os.environ:

is_terminal = True

else:

is_terminal = None

except Exception:

is_terminal = False

return is_terminal

def is_terminal(fd, is_terminal=None):

if is_terminal is None:

# Full ansi support encompasses what we expect from a terminal

is_terminal = is_ansi_terminal(True) or None

if is_terminal is None:

# Allow a environment variable override

is_terminal = env_flag('PROGRESSBAR_IS_TERMINAL', None)

if is_terminal is None: # pragma: no cover

# Bare except because a lot can go wrong on different systems. If we do

# get a TTY we know this is a valid terminal

try:

is_terminal = fd.isatty()

except Exception:

is_terminal = False

return is_terminal

def deltas_to_seconds(*deltas, **kwargs): # default=ValueError):

'''

Convert timedeltas and seconds as int to seconds as float while coalescing

>>> deltas_to_seconds(datetime.timedelta(seconds=1, milliseconds=234))

1.234

>>> deltas_to_seconds(123)

123.0

>>> deltas_to_seconds(1.234)

1.234

>>> deltas_to_seconds(None, 1.234)

1.234

>>> deltas_to_seconds(0, 1.234)

0.0

>>> deltas_to_seconds()

Traceback (most recent call last):

...

ValueError: No valid deltas passed to `deltas_to_seconds`

>>> deltas_to_seconds(None)

Traceback (most recent call last):

...

ValueError: No valid deltas passed to `deltas_to_seconds`

>>> deltas_to_seconds(default=0.0)

0.0

'''

default = kwargs.pop('default', ValueError)

assert not kwargs, 'Only the `default` keyword argument is supported'

for delta in deltas:

if delta is None:

continue

if isinstance(delta, datetime.timedelta):

return timedelta_to_seconds(delta)

elif not isinstance(delta, float):

return float(delta)

else:

return delta

if default is ValueError:

raise ValueError('No valid deltas passed to `deltas_to_seconds`')

else:

return default

def no_color(value):

'''

Return the `value` without ANSI escape codes

>>> no_color(b'\u001b[1234]abc') == b'abc'

True

>>> str(no_color(u'\u001b[1234]abc'))

'abc'

>>> str(no_color('\u001b[1234]abc'))

'abc'

'''

if isinstance(value, bytes):

pattern = '\\\u001b\\[.*?[@-~]'

pattern = pattern.encode()

replace = b''

assert isinstance(pattern, bytes)

else:

pattern = u'\x1b\\[.*?[@-~]'

replace = ''

return re.sub(pattern, replace, value)

def len_color(value):

'''

Return the length of `value` without ANSI escape codes

>>> len_color(b'\u001b[1234]abc')

>>> len_color(u'\u001b[1234]abc')

>>> len_color('\u001b[1234]abc')

'''

return len(no_color(value))

def env_flag(name, default=None):

'''

Accepts environt variables formatted as y/n, yes/no, 1/0, true/false,

on/off, and returns it as a boolean

If the environment variable is not defined, or has an unknown value,

returns `default`

'''

v = os.getenv(name)

if v and v.lower() in ('y', 'yes', 't', 'true', 'on', '1'):

return True

if v and v.lower() in ('n', 'no', 'f', 'false', 'off', '0'):

return False

return default

class WrappingIO:

def __init__(self, target, capturing=False, listeners=set()):

self.buffer = six.StringIO()

self.target = target

self.capturing = capturing

self.listeners = listeners

self.needs_clear = False

def isatty(self):

return self.target.isatty()

def write(self, value):

if self.capturing:

self.buffer.write(value)

if '\n' in value: # pragma: no branch

self.needs_clear = True

for listener in self.listeners: # pragma: no branch

listener.update()

else:

self.target.write(value)

if '\n' in value: # pragma: no branch

self.flush_target()

def flush(self):

self.buffer.flush()

def _flush(self):

value = self.buffer.getvalue()

if value:

self.flush()

self.target.write(value)

self.buffer.seek(0)

self.buffer.truncate(0)

self.needs_clear = False

# when explicitly flushing, always flush the target as well

self.flush_target()

def flush_target(self): # pragma: no cover

if not self.target.closed and getattr(self.target, 'flush'):

self.target.flush()

class StreamWrapper(object):

'''Wrap stdout and stderr globally'''

def __init__(self):

self.stdout = self.original_stdout = sys.stdout

self.stderr = self.original_stderr = sys.stderr

self.original_excepthook = sys.excepthook

self.wrapped_stdout = 0

self.wrapped_stderr = 0

self.wrapped_excepthook = 0

self.capturing = 0

self.listeners = set()

if env_flag('WRAP_STDOUT', default=False): # pragma: no cover

self.wrap_stdout()

if env_flag('WRAP_STDERR', default=False): # pragma: no cover

self.wrap_stderr()

def start_capturing(self, bar=None):

if bar: # pragma: no branch

self.listeners.add(bar)

self.capturing += 1

self.update_capturing()

def stop_capturing(self, bar=None):

if bar: # pragma: no branch

try:

self.listeners.remove(bar)

except KeyError:

pass

self.capturing -= 1

self.update_capturing()

def update_capturing(self): # pragma: no cover

if isinstance(self.stdout, WrappingIO):

self.stdout.capturing = self.capturing > 0

if isinstance(self.stderr, WrappingIO):

self.stderr.capturing = self.capturing > 0

if self.capturing <= 0:

self.flush()

def wrap(self, stdout=False, stderr=False):

if stdout:

self.wrap_stdout()

if stderr:

self.wrap_stderr()

def wrap_stdout(self):

self.wrap_excepthook()

if not self.wrapped_stdout:

self.stdout = sys.stdout = WrappingIO(self.original_stdout,

listeners=self.listeners)

self.wrapped_stdout += 1

return sys.stdout

def wrap_stderr(self):

self.wrap_excepthook()

if not self.wrapped_stderr:

self.stderr = sys.stderr = WrappingIO(self.original_stderr,

listeners=self.listeners)

self.wrapped_stderr += 1

return sys.stderr

def unwrap_excepthook(self):

if self.wrapped_excepthook:

self.wrapped_excepthook -= 1

sys.excepthook = self.original_excepthook

def wrap_excepthook(self):

if not self.wrapped_excepthook:

logger.debug('wrapping excepthook')

self.wrapped_excepthook += 1

sys.excepthook = self.excepthook

def unwrap(self, stdout=False, stderr=False):

if stdout:

self.unwrap_stdout()

if stderr:

self.unwrap_stderr()

def unwrap_stdout(self):

if self.wrapped_stdout > 1:

self.wrapped_stdout -= 1

else:

sys.stdout = self.original_stdout

self.wrapped_stdout = 0

def unwrap_stderr(self):

if self.wrapped_stderr > 1:

self.wrapped_stderr -= 1

else:

sys.stderr = self.original_stderr

self.wrapped_stderr = 0

def needs_clear(self): # pragma: no cover

stdout_needs_clear = getattr(self.stdout, 'needs_clear', False)

stderr_needs_clear = getattr(self.stderr, 'needs_clear', False)

return stderr_needs_clear or stdout_needs_clear

def flush(self):

if self.wrapped_stdout: # pragma: no branch

try:

self.stdout._flush()

except (io.UnsupportedOperation,

AttributeError): # pragma: no cover

self.wrapped_stdout = False

logger.warn('Disabling stdout redirection, %r is not seekable',

sys.stdout)

if self.wrapped_stderr: # pragma: no branch

try:

self.stderr._flush()

except (io.UnsupportedOperation,

AttributeError): # pragma: no cover

self.wrapped_stderr = False

logger.warn('Disabling stderr redirection, %r is not seekable',

sys.stderr)

def excepthook(self, exc_type, exc_value, exc_traceback):

self.original_excepthook(exc_type, exc_value, exc_traceback)

self.flush()

class AttributeDict(dict):

'''

A dict that can be accessed with .attribute

>>> attrs = AttributeDict(spam=123)

# Reading

>>> attrs['spam']

123

>>> attrs.spam

123

# Read after update using attribute

>>> attrs.spam = 456

>>> attrs['spam']

456

>>> attrs.spam

456

# Read after update using dict access

>>> attrs['spam'] = 123

>>> attrs['spam']

123

>>> attrs.spam

123

# Read after update using dict access

>>> del attrs.spam

>>> attrs['spam']

Traceback (most recent call last):

...

KeyError: 'spam'

>>> attrs.spam

Traceback (most recent call last):

...

AttributeError: No such attribute: spam

>>> del attrs.spam

Traceback (most recent call last):

...

AttributeError: No such attribute: spam

'''

def __getattr__(self, name):

if name in self:

return self[name]

else:

raise AttributeError("No such attribute: " + name)

def __setattr__(self, name, value):

self[name] = value

def __delattr__(self, name):

if name in self:

del self[name]

else:

raise AttributeError("No such attribute: " + name)

logger = logging.getLogger(__name__)

streams = StreamWrapper()

atexit.register(streams.flush)

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