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progressbar.py
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progressbar.py
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#!/usr/bin/python
# -*- coding: iso-8859-1 -*-
#
# progressbar - Text progressbar library for python.
# Copyright (c) 2005 Nilton Volpato
#
# 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
"""Text progressbar library for python.
This library provides a text mode progressbar. This is typically used
to display the progress of a long running operation, providing a
visual clue that processing is underway.
The ProgressBar class manages the progress, and the format of the line
is given by a number of widgets. A widget is an object that may
display diferently depending on the state of the progress. There are
three types of widget:
- a string, which always shows itself;
- a ProgressBarWidget, which may return a diferent value every time
it's update method is called; and
- a ProgressBarWidgetHFill, which is like ProgressBarWidget, except it
expands to fill the remaining width of the line.
The progressbar module is very easy to use, yet very powerful. And
automatically supports features like auto-resizing when available.
"""
__author__ = "Nilton Volpato"
__author_email__ = "first-name dot last-name @ gmail.com"
__date__ = "2006-05-07"
__version__ = "2.2"
# Changelog
#
# 2006-05-07: v2.2 fixed bug in windows
# 2005-12-04: v2.1 autodetect terminal width, added start method
# 2005-12-04: v2.0 everything is now a widget (wow!)
# 2005-12-03: v1.0 rewrite using widgets
# 2005-06-02: v0.5 rewrite
# 2004-??-??: v0.1 first version
import sys
import time
from array import array
try:
from fcntl import ioctl
import termios
except ImportError:
pass
import signal
class ProgressBarWidget(object):
"""This is an element of ProgressBar formatting.
The ProgressBar object will call it's update value when an update
is needed. It's size may change between call, but the results will
not be good if the size changes drastically and repeatedly.
"""
def update(self, pbar):
"""Returns the string representing the widget.
The parameter pbar is a reference to the calling ProgressBar,
where one can access attributes of the class for knowing how
the update must be made.
At least this function must be overriden."""
pass
class ProgressBarWidgetHFill(object):
"""This is a variable width element of ProgressBar formatting.
The ProgressBar object will call it's update value, informing the
width this object must the made. This is like TeX \\hfill, 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.
"""
def update(self, pbar, width):
"""Returns the string representing the widget.
The parameter pbar is a reference to the calling ProgressBar,
where one can access attributes of the class for knowing how
the update must be made. The parameter width is the total
horizontal width the widget must have.
At least this function must be overriden."""
pass
class ETA(ProgressBarWidget):
"Widget for the Estimated Time of Arrival"
def format_time(self, seconds):
return time.strftime('%H:%M:%S', time.gmtime(seconds))
def update(self, pbar):
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 FileTransferSpeed(ProgressBarWidget):
"Widget for showing the transfer speed (useful for file transfers)."
def __init__(self):
self.fmt = '%6.2f %s'
self.units = ['B', 'K', 'M', 'G', 'T', 'P']
def update(self, pbar):
if pbar.seconds_elapsed < 2e-6: # == 0:
bps = 0.0
else:
bps = float(pbar.currval) / pbar.seconds_elapsed
spd = bps
for u in self.units:
if spd < 1000:
break
spd /= 1000
return self.fmt % (spd, u + '/s')
class RotatingMarker(ProgressBarWidget):
"A rotating marker for filling the bar of progress."
def __init__(self, markers='|/-\\'):
self.markers = markers
self.curmark = -1
def update(self, pbar):
if pbar.finished:
return self.markers[0]
self.curmark = (self.curmark + 1) % len(self.markers)
return self.markers[self.curmark]
class Percentage(ProgressBarWidget):
"Just the percentage done."
def update(self, pbar):
return '%3d%%' % pbar.percentage()
class Fraction(ProgressBarWidget):
"Just the fraction done."
def update(self, pbar):
return "%d/%d" % (pbar.currval, pbar.maxval)
class Bar(ProgressBarWidgetHFill):
"The bar of progress. It will strech to fill the line."
def __init__(self, marker='#', left='|', right='|'):
self.marker = marker
self.left = left
self.right = right
def _format_marker(self, pbar):
if isinstance(self.marker, (str, unicode)):
return self.marker
else:
return self.marker.update(pbar)
def update(self, pbar, width):
percent = pbar.percentage()
cwidth = width - len(self.left) - len(self.right)
marked_width = int(percent * cwidth / 100)
m = self._format_marker(pbar)
bar = (self.left + (m * marked_width).ljust(cwidth) + self.right)
return bar
class ReverseBar(Bar):
"The reverse bar of progress, or bar of regress. :)"
def update(self, pbar, width):
percent = pbar.percentage()
cwidth = width - len(self.left) - len(self.right)
marked_width = int(percent * cwidth / 100)
m = self._format_marker(pbar)
bar = (self.left + (m * marked_width).rjust(cwidth) + self.right)
return bar
default_widgets = [Percentage(), ' ', Bar()]
class ProgressBar(object):
"""This is the ProgressBar class, it updates and prints the bar.
The term_width parameter may be an integer. Or None, in which case
it will try to guess it, if it fails it will default to 80 columns.
The simple use is like this:
>>> pbar = ProgressBar().start()
>>> for i in xrange(100):
... # do something
... pbar.update(i+1)
...
>>> pbar.finish()
But anything you want to do is possible (well, almost anything).
You can supply different widgets of any type in any order. And you
can even write your own widgets! There are many widgets already
shipped and you should experiment with them.
When implementing a widget update method you may access any
attribute or function of the ProgressBar object calling the
widget's update method. The most important attributes you would
like to access are:
- currval: current value of the progress, 0 <= currval <= maxval
- maxval: maximum (and final) value of the progress
- finished: True if the bar is have finished (reached 100%), False o/w
- start_time: first time update() method of ProgressBar was called
- seconds_elapsed: seconds elapsed since start_time
- percentage(): percentage of the progress (this is a method)
"""
def __init__(self, maxval=100, widgets=default_widgets, term_width=None,
fd=sys.stderr, force_update=False):
assert maxval > 0
self.maxval = maxval
self.widgets = widgets
self.fd = fd
self.signal_set = False
if term_width is None:
try:
self.handle_resize(None, None)
signal.signal(signal.SIGWINCH, self.handle_resize)
self.signal_set = True
except:
self.term_width = 79
else:
self.term_width = term_width
self.currval = 0
self.finished = False
self.prev_percentage = -1
self.start_time = None
self.seconds_elapsed = 0
self.force_update = force_update
def handle_resize(self, signum, frame):
h, w = array('h', ioctl(self.fd, termios.TIOCGWINSZ, '\0' * 8))[:2]
self.term_width = w
def percentage(self):
"Returns the percentage of the progress."
return self.currval * 100.0 / self.maxval
def _format_widgets(self):
r = []
hfill_inds = []
num_hfill = 0
currwidth = 0
for i, w in enumerate(self.widgets):
if isinstance(w, ProgressBarWidgetHFill):
r.append(w)
hfill_inds.append(i)
num_hfill += 1
elif isinstance(w, (str, unicode)):
r.append(w)
currwidth += len(w)
else:
weval = w.update(self)
currwidth += len(weval)
r.append(weval)
for iw in hfill_inds:
r[iw] = r[iw].update(self,
(self.term_width - currwidth) / num_hfill)
return r
def _format_line(self):
return ''.join(self._format_widgets()).ljust(self.term_width)
def _need_update(self):
if self.force_update:
return True
return int(self.percentage()) != int(self.prev_percentage)
def reset(self):
if not self.finished and self.start_time:
self.finish()
self.finished = False
self.currval = 0
self.start_time = None
self.seconds_elapsed = None
self.prev_percentage = None
return self
def update(self, value):
"Updates the progress bar to a new value."
assert 0 <= value <= self.maxval
self.currval = value
if not self._need_update() or self.finished:
return
if not self.start_time:
self.start_time = time.time()
self.seconds_elapsed = time.time() - self.start_time
self.prev_percentage = self.percentage()
if value != self.maxval:
self.fd.write(self._format_line() + '\r')
else:
self.finished = True
self.fd.write(self._format_line() + '\n')
def start(self):
"""Start measuring time, and prints the bar at 0%.
It returns self so you can use it like this:
>>> pbar = ProgressBar().start()
>>> for i in xrange(100):
... # do something
... pbar.update(i+1)
...
>>> pbar.finish()
"""
self.update(0)
return self
def finish(self):
"""Used to tell the progress is finished."""
self.update(self.maxval)
if self.signal_set:
signal.signal(signal.SIGWINCH, signal.SIG_DFL)
def example1():
widgets = ['Test: ', Percentage(), ' ', Bar(marker=RotatingMarker()),
' ', ETA(), ' ', FileTransferSpeed()]
pbar = ProgressBar(widgets=widgets, maxval=10000000).start()
for i in range(1000000):
# do something
pbar.update(10 * i + 1)
pbar.finish()
return pbar
def example2():
class CrazyFileTransferSpeed(FileTransferSpeed):
"It's bigger between 45 and 80 percent"
def update(self, pbar):
if 45 < pbar.percentage() < 80:
return 'Bigger Now ' + FileTransferSpeed.update(self, pbar)
else:
return FileTransferSpeed.update(self, pbar)
widgets = [CrazyFileTransferSpeed(), ' <<<',
Bar(), '>>> ', Percentage(), ' ', ETA()]
pbar = ProgressBar(widgets=widgets, maxval=10000000)
# maybe do something
pbar.start()
for i in range(2000000):
# do something
pbar.update(5 * i + 1)
pbar.finish()
return pbar
def example3():
widgets = [Bar('>'), ' ', ETA(), ' ', ReverseBar('<')]
pbar = ProgressBar(widgets=widgets, maxval=10000000).start()
for i in range(1000000):
# do something
pbar.update(10 * i + 1)
pbar.finish()
return pbar
def example4():
widgets = ['Test: ', Percentage(), ' ',
Bar(marker='0', left='[', right=']'),
' ', ETA(), ' ', FileTransferSpeed()]
pbar = ProgressBar(widgets=widgets, maxval=500)
pbar.start()
for i in range(100, 500 + 1, 50):
time.sleep(0.2)
pbar.update(i)
pbar.finish()
return pbar
def example5():
widgets = ['Test: ', Fraction(), ' ', Bar(marker=RotatingMarker()),
' ', ETA(), ' ', FileTransferSpeed()]
pbar = ProgressBar(widgets=widgets, maxval=10, force_update=True).start()
for i in range(1, 11):
# do something
time.sleep(0.5)
pbar.update(i)
pbar.finish()
return pbar
def main():
example1()
print
example2()
print
example3()
print
example4()
print
example5()
print
if __name__ == '__main__':
main()