poky/bitbake/lib/progressbar/widgets.py - openbmc/openbmc - Gitiles

 # -*- coding: utf-8 -*-
 #
 # progressbar  - Text progress bar library for Python.
 # Copyright (c) 2005 Nilton Volpato
 #
 # SPDX-License-Identifier: LGPL-2.1-or-later OR BSD-3-Clause-Clear
 #
 # This library is free software; you can redistribute it and/or
 # modify it under the terms of the GNU Lesser General Public
 # License as published by the Free Software Foundation; either
 # version 2.1 of the License, or (at your option) any later version.
 #
 # This library is distributed in the hope that it will be useful,
 # but WITHOUT ANY WARRANTY; without even the implied warranty of
 # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
 # Lesser General Public License for more details.
 #
 # You should have received a copy of the GNU Lesser General Public
 # License along with this library; if not, write to the Free Software
 # Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA  02110-1301  USA

 """Default ProgressBar widgets."""

 from __future__ import division

 import datetime
 import math

 try:
     from abc import ABCMeta, abstractmethod
 except ImportError:
     AbstractWidget = object
     abstractmethod = lambda fn: fn
 else:
     AbstractWidget = ABCMeta('AbstractWidget', (object,), {})


 def format_updatable(updatable, pbar):
     if hasattr(updatable, 'update'): return updatable.update(pbar)
     else: return updatable


 class Widget(AbstractWidget):
     """The base class for all widgets.

     The ProgressBar will call the widget's update value when the widget should
     be updated. The widget's size may change between calls, but the widget may
     display incorrectly if the size changes drastically and repeatedly.

     The boolean TIME_SENSITIVE informs the ProgressBar that it should be
     updated more often because it is time sensitive.
     """

     TIME_SENSITIVE = False
     __slots__ = ()

     @abstractmethod
     def update(self, pbar):
         """Updates the widget.

         pbar - a reference to the calling ProgressBar
         """


 class WidgetHFill(Widget):
     """The base class for all variable width widgets.

     This widget is much like the \\hfill command in TeX, it will expand to
     fill the line. You can use more than one in the same line, and they will
     all have the same width, and together will fill the line.
     """

     @abstractmethod
     def update(self, pbar, width):
         """Updates the widget providing the total width the widget must fill.

         pbar - a reference to the calling ProgressBar
         width - The total width the widget must fill
         """


 class Timer(Widget):
     """Widget which displays the elapsed seconds."""

     __slots__ = ('format_string',)
     TIME_SENSITIVE = True

     def __init__(self, format='Elapsed Time: %s'):
         self.format_string = format

     @staticmethod
     def format_time(seconds):
         """Formats time as the string "HH:MM:SS"."""

         return str(datetime.timedelta(seconds=int(seconds)))


     def update(self, pbar):
         """Updates the widget to show the elapsed time."""

         return self.format_string % self.format_time(pbar.seconds_elapsed)


 class ETA(Timer):
     """Widget which attempts to estimate the time of arrival."""

     TIME_SENSITIVE = True

     def update(self, pbar):
         """Updates the widget to show the ETA or total time when finished."""

         if pbar.currval == 0:
             return 'ETA:  --:--:--'
         elif pbar.finished:
             return 'Time: %s' % self.format_time(pbar.seconds_elapsed)
         else:
             elapsed = pbar.seconds_elapsed
             eta = elapsed * pbar.maxval / pbar.currval - elapsed
             return 'ETA:  %s' % self.format_time(eta)


 class AdaptiveETA(Timer):
     """Widget which attempts to estimate the time of arrival.

     Uses a weighted average of two estimates:
       1) ETA based on the total progress and time elapsed so far
       2) ETA based on the progress as per the last 10 update reports

     The weight depends on the current progress so that to begin with the
     total progress is used and at the end only the most recent progress is
     used.
     """

     TIME_SENSITIVE = True
     NUM_SAMPLES = 10

     def _update_samples(self, currval, elapsed):
         sample = (currval, elapsed)
         if not hasattr(self, 'samples'):
             self.samples = [sample] * (self.NUM_SAMPLES + 1)
         else:
             self.samples.append(sample)
         return self.samples.pop(0)

     def _eta(self, maxval, currval, elapsed):
         return elapsed * maxval / float(currval) - elapsed

     def update(self, pbar):
         """Updates the widget to show the ETA or total time when finished."""
         if pbar.currval == 0:
             return 'ETA:  --:--:--'
         elif pbar.finished:
             return 'Time: %s' % self.format_time(pbar.seconds_elapsed)
         else:
             elapsed = pbar.seconds_elapsed
             currval1, elapsed1 = self._update_samples(pbar.currval, elapsed)
             eta = self._eta(pbar.maxval, pbar.currval, elapsed)
             if pbar.currval > currval1:
                 etasamp = self._eta(pbar.maxval - currval1,
                                     pbar.currval - currval1,
                                     elapsed - elapsed1)
                 weight = (pbar.currval / float(pbar.maxval)) ** 0.5
                 eta = (1 - weight) * eta + weight * etasamp
             return 'ETA:  %s' % self.format_time(eta)


 class FileTransferSpeed(Widget):
     """Widget for showing the transfer speed (useful for file transfers)."""

     FORMAT = '%6.2f %s%s/s'
     PREFIXES = ' kMGTPEZY'
     __slots__ = ('unit',)

     def __init__(self, unit='B'):
         self.unit = unit

     def update(self, pbar):
         """Updates the widget with the current SI prefixed speed."""

         if pbar.seconds_elapsed < 2e-6 or pbar.currval < 2e-6: # =~ 0
             scaled = power = 0
         else:
             speed = pbar.currval / pbar.seconds_elapsed
             power = int(math.log(speed, 1000))
             scaled = speed / 1000.**power

         return self.FORMAT % (scaled, self.PREFIXES[power], self.unit)


 class AnimatedMarker(Widget):
     """An animated marker for the progress bar which defaults to appear as if
     it were rotating.
     """

     __slots__ = ('markers', 'curmark')

     def __init__(self, markers='|/-\\'):
         self.markers = markers
         self.curmark = -1

     def update(self, pbar):
         """Updates the widget to show the next marker or the first marker when
         finished"""

         if pbar.finished: return self.markers[0]

         self.curmark = (self.curmark + 1) % len(self.markers)
         return self.markers[self.curmark]

 # Alias for backwards compatibility
 RotatingMarker = AnimatedMarker


 class Counter(Widget):
     """Displays the current count."""

     __slots__ = ('format_string',)

     def __init__(self, format='%d'):
         self.format_string = format

     def update(self, pbar):
         return self.format_string % pbar.currval


 class Percentage(Widget):
     """Displays the current percentage as a number with a percent sign."""

     def update(self, pbar):
         return '%3d%%' % pbar.percentage()


 class FormatLabel(Timer):
     """Displays a formatted label."""

     mapping = {
         'elapsed': ('seconds_elapsed', Timer.format_time),
         'finished': ('finished', None),
         'last_update': ('last_update_time', None),
         'max': ('maxval', None),
         'seconds': ('seconds_elapsed', None),
         'start': ('start_time', None),
         'value': ('currval', None)
     }

     __slots__ = ('format_string',)
     def __init__(self, format):
         self.format_string = format

     def update(self, pbar):
         context = {}
         for name, (key, transform) in self.mapping.items():
             try:
                 value = getattr(pbar, key)

                 if transform is None:
                    context[name] = value
                 else:
                    context[name] = transform(value)
             except: pass

         return self.format_string % context


 class SimpleProgress(Widget):
     """Returns progress as a count of the total (e.g.: "5 of 47")."""

     __slots__ = ('sep',)

     def __init__(self, sep=' of '):
         self.sep = sep

     def update(self, pbar):
         return '%d%s%d' % (pbar.currval, self.sep, pbar.maxval)


 class Bar(WidgetHFill):
     """A progress bar which stretches to fill the line."""

     __slots__ = ('marker', 'left', 'right', 'fill', 'fill_left')

     def __init__(self, marker='#', left='|', right='|', fill=' ',
                  fill_left=True):
         """Creates a customizable progress bar.

         marker - string or updatable object to use as a marker
         left - string or updatable object to use as a left border
         right - string or updatable object to use as a right border
         fill - character to use for the empty part of the progress bar
         fill_left - whether to fill from the left or the right
         """
         self.marker = marker
         self.left = left
         self.right = right
         self.fill = fill
         self.fill_left = fill_left


     def update(self, pbar, width):
         """Updates the progress bar and its subcomponents."""

         left, marked, right = (format_updatable(i, pbar) for i in
                                (self.left, self.marker, self.right))

         width -= len(left) + len(right)
         # Marked must *always* have length of 1
         if pbar.maxval:
           marked *= int(pbar.currval / pbar.maxval * width)
         else:
           marked = ''

         if self.fill_left:
             return '%s%s%s' % (left, marked.ljust(width, self.fill), right)
         else:
             return '%s%s%s' % (left, marked.rjust(width, self.fill), right)


 class ReverseBar(Bar):
     """A bar which has a marker which bounces from side to side."""

     def __init__(self, marker='#', left='|', right='|', fill=' ',
                  fill_left=False):
         """Creates a customizable progress bar.

         marker - string or updatable object to use as a marker
         left - string or updatable object to use as a left border
         right - string or updatable object to use as a right border
         fill - character to use for the empty part of the progress bar
         fill_left - whether to fill from the left or the right
         """
         self.marker = marker
         self.left = left
         self.right = right
         self.fill = fill
         self.fill_left = fill_left


 class BouncingBar(Bar):
     def update(self, pbar, width):
         """Updates the progress bar and its subcomponents."""

         left, marker, right = (format_updatable(i, pbar) for i in
                                (self.left, self.marker, self.right))

         width -= len(left) + len(right)

         if pbar.finished: return '%s%s%s' % (left, width * marker, right)

         position = int(pbar.currval % (width * 2 - 1))
         if position > width: position = width * 2 - position
         lpad = self.fill * (position - 1)
         rpad = self.fill * (width - len(marker) - len(lpad))

         # Swap if we want to bounce the other way
         if not self.fill_left: rpad, lpad = lpad, rpad

         return '%s%s%s%s%s' % (left, lpad, marker, rpad, right)


 class BouncingSlider(Bar):
     """
     A slider that bounces back and forth in response to update() calls
     without reference to the actual value. Based on a combination of
     BouncingBar from a newer version of this module and RotatingMarker.
     """
     def __init__(self, marker='<=>'):
         self.curmark = -1
         self.forward = True
         Bar.__init__(self, marker=marker)
     def update(self, pbar, width):
         left, marker, right = (format_updatable(i, pbar) for i in
                                (self.left, self.marker, self.right))

         width -= len(left) + len(right)
         if width < 0:
             return ''

         if pbar.finished: return '%s%s%s' % (left, width * '=', right)

         self.curmark = self.curmark + 1
         position = int(self.curmark % (width * 2 - 1))
         if position + len(marker) > width:
             self.forward = not self.forward
             self.curmark = 1
             position = 1
         lpad = ' ' * (position - 1)
         rpad = ' ' * (width - len(marker) - len(lpad))

         if not self.forward:
             temp = lpad
             lpad = rpad
             rpad = temp
         return '%s%s%s%s%s' % (left, lpad, marker, rpad, right)
	# -- coding: utf-8 --
	#
	# progressbar - Text progress bar library for Python.
	# Copyright (c) 2005 Nilton Volpato
	#
	# SPDX-License-Identifier: LGPL-2.1-or-later OR BSD-3-Clause-Clear
	#
	# This library is free software; you can redistribute it and/or
	# modify it under the terms of the GNU Lesser General Public
	# License as published by the Free Software Foundation; either
	# version 2.1 of the License, or (at your option) any later version.
	#
	# This library is distributed in the hope that it will be useful,
	# but WITHOUT ANY WARRANTY; without even the implied warranty of
	# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
	# Lesser General Public License for more details.
	#
	# You should have received a copy of the GNU Lesser General Public
	# License along with this library; if not, write to the Free Software
	# Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA

	"""Default ProgressBar widgets."""

	from __future__ import division

	import datetime
	import math

	try:
	from abc import ABCMeta, abstractmethod
	except ImportError:
	AbstractWidget = object
	abstractmethod = lambda fn: fn
	else:
	AbstractWidget = ABCMeta('AbstractWidget', (object,), {})


	def format_updatable(updatable, pbar):
	if hasattr(updatable, 'update'): return updatable.update(pbar)
	else: return updatable


	class Widget(AbstractWidget):
	"""The base class for all widgets.

	The ProgressBar will call the widget's update value when the widget should
	be updated. The widget's size may change between calls, but the widget may
	display incorrectly if the size changes drastically and repeatedly.

	The boolean TIME_SENSITIVE informs the ProgressBar that it should be
	updated more often because it is time sensitive.
	"""

	TIME_SENSITIVE = False
	__slots__ = ()

	@abstractmethod
	def update(self, pbar):
	"""Updates the widget.

	pbar - a reference to the calling ProgressBar
	"""


	class WidgetHFill(Widget):
	"""The base class for all variable width widgets.

	This widget is much like the \\hfill command in TeX, it will expand to
	fill the line. You can use more than one in the same line, and they will
	all have the same width, and together will fill the line.
	"""

	@abstractmethod
	def update(self, pbar, width):
	"""Updates the widget providing the total width the widget must fill.

	pbar - a reference to the calling ProgressBar
	width - The total width the widget must fill
	"""


	class Timer(Widget):
	"""Widget which displays the elapsed seconds."""

	__slots__ = ('format_string',)
	TIME_SENSITIVE = True

	def __init__(self, format='Elapsed Time: %s'):
	self.format_string = format

	@staticmethod
	def format_time(seconds):
	"""Formats time as the string "HH:MM:SS"."""

	return str(datetime.timedelta(seconds=int(seconds)))


	def update(self, pbar):
	"""Updates the widget to show the elapsed time."""

	return self.format_string % self.format_time(pbar.seconds_elapsed)


	class ETA(Timer):
	"""Widget which attempts to estimate the time of arrival."""

	TIME_SENSITIVE = True

	def update(self, pbar):
	"""Updates the widget to show the ETA or total time when finished."""

	if pbar.currval == 0:
	return 'ETA: --:--:--'
	elif pbar.finished:
	return 'Time: %s' % self.format_time(pbar.seconds_elapsed)
	else:
	elapsed = pbar.seconds_elapsed
	eta = elapsed * pbar.maxval / pbar.currval - elapsed
	return 'ETA: %s' % self.format_time(eta)


	class AdaptiveETA(Timer):
	"""Widget which attempts to estimate the time of arrival.

	Uses a weighted average of two estimates:
	1) ETA based on the total progress and time elapsed so far
	2) ETA based on the progress as per the last 10 update reports

	The weight depends on the current progress so that to begin with the
	total progress is used and at the end only the most recent progress is
	used.
	"""

	TIME_SENSITIVE = True
	NUM_SAMPLES = 10

	def _update_samples(self, currval, elapsed):
	sample = (currval, elapsed)
	if not hasattr(self, 'samples'):
	self.samples = [sample] * (self.NUM_SAMPLES + 1)
	else:
	self.samples.append(sample)
	return self.samples.pop(0)

	def _eta(self, maxval, currval, elapsed):
	return elapsed * maxval / float(currval) - elapsed

	def update(self, pbar):
	"""Updates the widget to show the ETA or total time when finished."""
	if pbar.currval == 0:
	return 'ETA: --:--:--'
	elif pbar.finished:
	return 'Time: %s' % self.format_time(pbar.seconds_elapsed)
	else:
	elapsed = pbar.seconds_elapsed
	currval1, elapsed1 = self._update_samples(pbar.currval, elapsed)
	eta = self._eta(pbar.maxval, pbar.currval, elapsed)
	if pbar.currval > currval1:
	etasamp = self._eta(pbar.maxval - currval1,
	pbar.currval - currval1,
	elapsed - elapsed1)
	weight = (pbar.currval / float(pbar.maxval)) ** 0.5
	eta = (1 - weight) * eta + weight * etasamp
	return 'ETA: %s' % self.format_time(eta)


	class FileTransferSpeed(Widget):
	"""Widget for showing the transfer speed (useful for file transfers)."""

	FORMAT = '%6.2f %s%s/s'
	PREFIXES = ' kMGTPEZY'
	__slots__ = ('unit',)

	def __init__(self, unit='B'):
	self.unit = unit

	def update(self, pbar):
	"""Updates the widget with the current SI prefixed speed."""

	if pbar.seconds_elapsed < 2e-6 or pbar.currval < 2e-6: # =~ 0
	scaled = power = 0
	else:
	speed = pbar.currval / pbar.seconds_elapsed
	power = int(math.log(speed, 1000))
	scaled = speed / 1000.**power

	return self.FORMAT % (scaled, self.PREFIXES[power], self.unit)


	class AnimatedMarker(Widget):
	"""An animated marker for the progress bar which defaults to appear as if
	it were rotating.
	"""

	__slots__ = ('markers', 'curmark')

	def __init__(self, markers='\|/-\\'):
	self.markers = markers
	self.curmark = -1

	def update(self, pbar):
	"""Updates the widget to show the next marker or the first marker when
	finished"""

	if pbar.finished: return self.markers[0]

	self.curmark = (self.curmark + 1) % len(self.markers)
	return self.markers[self.curmark]

	# Alias for backwards compatibility
	RotatingMarker = AnimatedMarker


	class Counter(Widget):
	"""Displays the current count."""

	__slots__ = ('format_string',)

	def __init__(self, format='%d'):
	self.format_string = format

	def update(self, pbar):
	return self.format_string % pbar.currval


	class Percentage(Widget):
	"""Displays the current percentage as a number with a percent sign."""

	def update(self, pbar):
	return '%3d%%' % pbar.percentage()


	class FormatLabel(Timer):
	"""Displays a formatted label."""

	mapping = {
	'elapsed': ('seconds_elapsed', Timer.format_time),
	'finished': ('finished', None),
	'last_update': ('last_update_time', None),
	'max': ('maxval', None),
	'seconds': ('seconds_elapsed', None),
	'start': ('start_time', None),
	'value': ('currval', None)
	}

	__slots__ = ('format_string',)
	def __init__(self, format):
	self.format_string = format

	def update(self, pbar):
	context = {}
	for name, (key, transform) in self.mapping.items():
	try:
	value = getattr(pbar, key)

	if transform is None:
	context[name] = value
	else:
	context[name] = transform(value)
	except: pass

	return self.format_string % context


	class SimpleProgress(Widget):
	"""Returns progress as a count of the total (e.g.: "5 of 47")."""

	__slots__ = ('sep',)

	def __init__(self, sep=' of '):
	self.sep = sep

	def update(self, pbar):
	return '%d%s%d' % (pbar.currval, self.sep, pbar.maxval)


	class Bar(WidgetHFill):
	"""A progress bar which stretches to fill the line."""

	__slots__ = ('marker', 'left', 'right', 'fill', 'fill_left')

	def __init__(self, marker='#', left='\|', right='\|', fill=' ',
	fill_left=True):
	"""Creates a customizable progress bar.

	marker - string or updatable object to use as a marker
	left - string or updatable object to use as a left border
	right - string or updatable object to use as a right border
	fill - character to use for the empty part of the progress bar
	fill_left - whether to fill from the left or the right
	"""
	self.marker = marker
	self.left = left
	self.right = right
	self.fill = fill
	self.fill_left = fill_left


	def update(self, pbar, width):
	"""Updates the progress bar and its subcomponents."""

	left, marked, right = (format_updatable(i, pbar) for i in
	(self.left, self.marker, self.right))

	width -= len(left) + len(right)
	# Marked must always have length of 1
	if pbar.maxval:
	marked = int(pbar.currval / pbar.maxval width)
	else:
	marked = ''

	if self.fill_left:
	return '%s%s%s' % (left, marked.ljust(width, self.fill), right)
	else:
	return '%s%s%s' % (left, marked.rjust(width, self.fill), right)


	class ReverseBar(Bar):
	"""A bar which has a marker which bounces from side to side."""

	def __init__(self, marker='#', left='\|', right='\|', fill=' ',
	fill_left=False):
	"""Creates a customizable progress bar.

	marker - string or updatable object to use as a marker
	left - string or updatable object to use as a left border
	right - string or updatable object to use as a right border
	fill - character to use for the empty part of the progress bar
	fill_left - whether to fill from the left or the right
	"""
	self.marker = marker
	self.left = left
	self.right = right
	self.fill = fill
	self.fill_left = fill_left


	class BouncingBar(Bar):
	def update(self, pbar, width):
	"""Updates the progress bar and its subcomponents."""

	left, marker, right = (format_updatable(i, pbar) for i in
	(self.left, self.marker, self.right))

	width -= len(left) + len(right)

	if pbar.finished: return '%s%s%s' % (left, width * marker, right)

	position = int(pbar.currval % (width * 2 - 1))
	if position > width: position = width * 2 - position
	lpad = self.fill * (position - 1)
	rpad = self.fill * (width - len(marker) - len(lpad))

	# Swap if we want to bounce the other way
	if not self.fill_left: rpad, lpad = lpad, rpad

	return '%s%s%s%s%s' % (left, lpad, marker, rpad, right)


	class BouncingSlider(Bar):
	"""
	A slider that bounces back and forth in response to update() calls
	without reference to the actual value. Based on a combination of
	BouncingBar from a newer version of this module and RotatingMarker.
	"""
	def __init__(self, marker='<=>'):
	self.curmark = -1
	self.forward = True
	Bar.__init__(self, marker=marker)
	def update(self, pbar, width):
	left, marker, right = (format_updatable(i, pbar) for i in
	(self.left, self.marker, self.right))

	width -= len(left) + len(right)
	if width < 0:
	return ''

	if pbar.finished: return '%s%s%s' % (left, width * '=', right)

	self.curmark = self.curmark + 1
	position = int(self.curmark % (width * 2 - 1))
	if position + len(marker) > width:
	self.forward = not self.forward
	self.curmark = 1
	position = 1
	lpad = ' ' * (position - 1)
	rpad = ' ' * (width - len(marker) - len(lpad))

	if not self.forward:
	temp = lpad
	lpad = rpad
	rpad = temp
	return '%s%s%s%s%s' % (left, lpad, marker, rpad, right)