~bzr-pqm/bzr/bzr.dev : revision 1930.3.2

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# This library is free software; you can redistribute it and/or

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# modify it under the terms of the GNU Lesser General Public

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# License as published by the Free Software Foundation; either

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# version 2.1 of the License, or (at your option) any later version.

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#

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# This library is distributed in the hope that it will be useful,

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# but WITHOUT ANY WARRANTY; without even the implied warranty of

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# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU

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# Lesser General Public License for more details.

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#

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# You should have received a copy of the GNU Lesser General Public

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# License along with this library; if not, write to the

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# Free Software Foundation, Inc.,

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# 59 Temple Place, Suite 330,

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# Boston, MA 02111-1307 USA

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# This file is part of urlgrabber, a high-level cross-protocol url-grabber

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# $Id: progress.py,v 1.5 2005/01/14 18:21:41 rtomayko Exp $

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import sys

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import time

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import math

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import thread

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class BaseMeter:

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def __init__(self):

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self.update_period = 0.3 # seconds

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self.filename = None

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self.url = None

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self.basename = None

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self.text = None

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self.size = None

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self.start_time = None

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self.last_amount_read = 0

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self.last_update_time = None

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self.re = RateEstimator()

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def start(self, filename=None, url=None, basename=None,

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size=None, now=None, text=None):

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self.filename = filename

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self.url = url

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self.basename = basename

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self.text = text

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#size = None ######### TESTING

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self.size = size

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if not size is None: self.fsize = format_number(size) + 'B'

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if now is None: now = time.time()

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self.start_time = now

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self.re.start(size, now)

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self.last_amount_read = 0

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self.last_update_time = now

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self._do_start(now)

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def _do_start(self, now=None):

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pass

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def update(self, amount_read, now=None):

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# for a real gui, you probably want to override and put a call

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# to your mainloop iteration function here

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if now is None: now = time.time()

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if (now >= self.last_update_time + self.update_period) or \

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not self.last_update_time:

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self.re.update(amount_read, now)

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self.last_amount_read = amount_read

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self.last_update_time = now

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self._do_update(amount_read, now)

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def _do_update(self, amount_read, now=None):

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pass

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def end(self, amount_read, now=None):

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if now is None: now = time.time()

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self.re.update(amount_read, now)

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self.last_amount_read = amount_read

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self.last_update_time = now

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self._do_end(amount_read, now)

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def _do_end(self, amount_read, now=None):

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pass

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class TextMeter(BaseMeter):

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def __init__(self, fo=sys.stderr):

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BaseMeter.__init__(self)

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self.fo = fo

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def _do_update(self, amount_read, now=None):

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etime = self.re.elapsed_time()

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fetime = format_time(etime)

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fread = format_number(amount_read)

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#self.size = None

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if self.text is not None:

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text = self.text

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else:

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text = self.basename

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if self.size is None:

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out = '\r%-60.60s %5sB %s ' % \

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(text, fread, fetime)

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else:

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rtime = self.re.remaining_time()

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frtime = format_time(rtime)

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frac = self.re.fraction_read()

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bar = '='*int(25 * frac)

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out = '\r%-25.25s %3i%% |%-25.25s| %5sB %8s ETA ' % \

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(text, frac*100, bar, fread, frtime)

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self.fo.write(out)

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self.fo.flush()

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def _do_end(self, amount_read, now=None):

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total_time = format_time(self.re.elapsed_time())

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total_size = format_number(amount_read)

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if self.text is not None:

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text = self.text

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else:

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text = self.basename

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if self.size is None:

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out = '\r%-60.60s %5sB %s ' % \

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(text, total_size, total_time)

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else:

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bar = '='*25

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out = '\r%-25.25s %3i%% |%-25.25s| %5sB %8s ' % \

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(text, 100, bar, total_size, total_time)

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self.fo.write(out + '\n')

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self.fo.flush()

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text_progress_meter = TextMeter

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class MultiFileHelper(BaseMeter):

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def __init__(self, master):

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BaseMeter.__init__(self)

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self.master = master

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def _do_start(self, now):

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self.master.start_meter(self, now)

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def _do_update(self, amount_read, now):

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# elapsed time since last update

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self.master.update_meter(self, now)

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def _do_end(self, amount_read, now):

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self.ftotal_time = format_time(now - self.start_time)

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self.ftotal_size = format_number(self.last_amount_read)

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self.master.end_meter(self, now)

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def failure(self, message, now=None):

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self.master.failure_meter(self, message, now)

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def message(self, message):

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self.master.message_meter(self, message)

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class MultiFileMeter:

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helperclass = MultiFileHelper

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def __init__(self):

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self.meters = []

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self.in_progress_meters = []

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self._lock = thread.allocate_lock()

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self.update_period = 0.3 # seconds

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self.numfiles = None

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self.finished_files = 0

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self.failed_files = 0

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self.open_files = 0

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self.total_size = None

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self.failed_size = 0

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self.start_time = None

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self.finished_file_size = 0

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self.last_update_time = None

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self.re = RateEstimator()

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def start(self, numfiles=None, total_size=None, now=None):

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if now is None: now = time.time()

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self.numfiles = numfiles

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self.finished_files = 0

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self.failed_files = 0

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self.open_files = 0

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self.total_size = total_size

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self.failed_size = 0

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self.start_time = now

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self.finished_file_size = 0

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self.last_update_time = now

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self.re.start(total_size, now)

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self._do_start(now)

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def _do_start(self, now):

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pass

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def end(self, now=None):

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if now is None: now = time.time()

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self._do_end(now)

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def _do_end(self, now):

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pass

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def lock(self): self._lock.acquire()

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def unlock(self): self._lock.release()

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###########################################################

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# child meter creation and destruction

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def newMeter(self):

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newmeter = self.helperclass(self)

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self.meters.append(newmeter)

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return newmeter

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def removeMeter(self, meter):

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self.meters.remove(meter)

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###########################################################

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# child functions - these should only be called by helpers

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def start_meter(self, meter, now):

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if not meter in self.meters:

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raise ValueError('attempt to use orphaned meter')

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self._lock.acquire()

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try:

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if not meter in self.in_progress_meters:

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self.in_progress_meters.append(meter)

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self.open_files += 1

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finally:

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self._lock.release()

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self._do_start_meter(meter, now)

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def _do_start_meter(self, meter, now):

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pass

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def update_meter(self, meter, now):

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if not meter in self.meters:

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raise ValueError('attempt to use orphaned meter')

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if (now >= self.last_update_time + self.update_period) or \

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not self.last_update_time:

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self.re.update(self._amount_read(), now)

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self.last_update_time = now

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self._do_update_meter(meter, now)

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def _do_update_meter(self, meter, now):

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pass

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def end_meter(self, meter, now):

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if not meter in self.meters:

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raise ValueError('attempt to use orphaned meter')

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self._lock.acquire()

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try:

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try: self.in_progress_meters.remove(meter)

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except ValueError: pass

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self.open_files -= 1

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self.finished_files += 1

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self.finished_file_size += meter.last_amount_read

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finally:

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self._lock.release()

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self._do_end_meter(meter, now)

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def _do_end_meter(self, meter, now):

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pass

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def failure_meter(self, meter, message, now):

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if not meter in self.meters:

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raise ValueError('attempt to use orphaned meter')

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self._lock.acquire()

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try:

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try: self.in_progress_meters.remove(meter)

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except ValueError: pass

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self.open_files -= 1

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self.failed_files += 1

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if meter.size and self.failed_size is not None:

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self.failed_size += meter.size

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else:

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self.failed_size = None

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finally:

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self._lock.release()

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self._do_failure_meter(meter, message, now)

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def _do_failure_meter(self, meter, message, now):

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pass

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def message_meter(self, meter, message):

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pass

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########################################################

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# internal functions

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def _amount_read(self):

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tot = self.finished_file_size

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for m in self.in_progress_meters:

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tot += m.last_amount_read

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return tot

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class TextMultiFileMeter(MultiFileMeter):

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def __init__(self, fo=sys.stderr):

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self.fo = fo

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MultiFileMeter.__init__(self)

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# files: ###/### ###% data: ######/###### ###% time: ##:##:##/##:##:##

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def _do_update_meter(self, meter, now):

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self._lock.acquire()

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try:

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format = "files: %3i/%-3i %3i%% data: %6.6s/%-6.6s %3i%% " \

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"time: %8.8s/%8.8s"

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df = self.finished_files

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tf = self.numfiles or 1

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pf = 100 * float(df)/tf + 0.49

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dd = self.re.last_amount_read

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td = self.total_size

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pd = 100 * (self.re.fraction_read() or 0) + 0.49

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dt = self.re.elapsed_time()

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rt = self.re.remaining_time()

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if rt is None: tt = None

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else: tt = dt + rt

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fdd = format_number(dd) + 'B'

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ftd = format_number(td) + 'B'

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fdt = format_time(dt, 1)

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ftt = format_time(tt, 1)

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out = '%-79.79s' % (format % (df, tf, pf, fdd, ftd, pd, fdt, ftt))

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self.fo.write('\r' + out)

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self.fo.flush()

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finally:

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self._lock.release()

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def _do_end_meter(self, meter, now):

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self._lock.acquire()

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try:

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format = "%-30.30s %6.6s %8.8s %9.9s"

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fn = meter.basename

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size = meter.last_amount_read

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fsize = format_number(size) + 'B'

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et = meter.re.elapsed_time()

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fet = format_time(et, 1)

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frate = format_number(size / et) + 'B/s'

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out = '%-79.79s' % (format % (fn, fsize, fet, frate))

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self.fo.write('\r' + out + '\n')

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finally:

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self._lock.release()

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self._do_update_meter(meter, now)

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def _do_failure_meter(self, meter, message, now):

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self._lock.acquire()

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try:

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format = "%-30.30s %6.6s %s"

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fn = meter.basename

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if type(message) in (type(''), type(u'')):

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message = message.splitlines()

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if not message: message = ['']

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out = '%-79s' % (format % (fn, 'FAILED', message[0] or ''))

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self.fo.write('\r' + out + '\n')

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for m in message[1:]: self.fo.write(' ' + m + '\n')

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self._lock.release()

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finally:

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self._do_update_meter(meter, now)

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def message_meter(self, meter, message):

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self._lock.acquire()

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try:

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pass

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finally:

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self._lock.release()

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def _do_end(self, now):

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self._do_update_meter(None, now)

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self._lock.acquire()

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try:

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self.fo.write('\n')

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self.fo.flush()

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finally:

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self._lock.release()

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######################################################################

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# support classes and functions

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class RateEstimator:

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def __init__(self, timescale=5.0):

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self.timescale = timescale

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def start(self, total=None, now=None):

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if now is None: now = time.time()

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self.total = total

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self.start_time = now

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self.last_update_time = now

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self.last_amount_read = 0

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self.ave_rate = None

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def update(self, amount_read, now=None):

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if now is None: now = time.time()

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if amount_read == 0:

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# if we just started this file, all bets are off

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self.last_update_time = now

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self.last_amount_read = 0

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self.ave_rate = None

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return

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#print 'times', now, self.last_update_time

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time_diff = now - self.last_update_time

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read_diff = amount_read - self.last_amount_read

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self.last_update_time = now

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self.last_amount_read = amount_read

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self.ave_rate = self._temporal_rolling_ave(\

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time_diff, read_diff, self.ave_rate, self.timescale)

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#print 'results', time_diff, read_diff, self.ave_rate

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#####################################################################

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# result methods

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def average_rate(self):

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"get the average transfer rate (in bytes/second)"

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return self.ave_rate

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def elapsed_time(self):

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"the time between the start of the transfer and the most recent update"

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return self.last_update_time - self.start_time

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def remaining_time(self):

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"estimated time remaining"

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if not self.ave_rate or not self.total: return None

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return (self.total - self.last_amount_read) / self.ave_rate

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def fraction_read(self):

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"""the fraction of the data that has been read

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(can be None for unknown transfer size)"""

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if self.total is None: return None

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elif self.total == 0: return 1.0

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else: return float(self.last_amount_read)/self.total

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#########################################################################

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# support methods

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def _temporal_rolling_ave(self, time_diff, read_diff, last_ave, timescale):

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"""a temporal rolling average performs smooth averaging even when

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updates come at irregular intervals. This is performed by scaling

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the "epsilon" according to the time since the last update.

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Specifically, epsilon = time_diff / timescale

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As a general rule, the average will take on a completely new value

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after 'timescale' seconds."""

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epsilon = time_diff / timescale

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if epsilon > 1: epsilon = 1.0

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return self._rolling_ave(time_diff, read_diff, last_ave, epsilon)

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def _rolling_ave(self, time_diff, read_diff, last_ave, epsilon):

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"""perform a "rolling average" iteration

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a rolling average "folds" new data into an existing average with

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some weight, epsilon. epsilon must be between 0.0 and 1.0 (inclusive)

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a value of 0.0 means only the old value (initial value) counts,

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and a value of 1.0 means only the newest value is considered."""

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try:

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recent_rate = read_diff / time_diff

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except ZeroDivisionError:

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recent_rate = None

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if last_ave is None: return recent_rate

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elif recent_rate is None: return last_ave

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# at this point, both last_ave and recent_rate are numbers

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return epsilon * recent_rate + (1 - epsilon) * last_ave

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def _round_remaining_time(self, rt, start_time=15.0):

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"""round the remaining time, depending on its size

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If rt is between n*start_time and (n+1)*start_time round downward

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to the nearest multiple of n (for any counting number n).

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If rt < start_time, round down to the nearest 1.

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For example (for start_time = 15.0):

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2.7 -> 2.0

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25.2 -> 25.0

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26.4 -> 26.0

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35.3 -> 34.0

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63.6 -> 60.0

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"""

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if rt < 0: return 0.0

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shift = int(math.log(rt/start_time)/math.log(2))

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rt = int(rt)

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if shift <= 0: return rt

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return float(int(rt) >> shift << shift)

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def format_time(seconds, use_hours=0):

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if seconds is None or seconds < 0:

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if use_hours: return '--:--:--'

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else: return '--:--'

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else:

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seconds = int(seconds)

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minutes = seconds / 60

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seconds = seconds % 60

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if use_hours:

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hours = minutes / 60

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minutes = minutes % 60

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return '%02i:%02i:%02i' % (hours, minutes, seconds)

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else:

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return '%02i:%02i' % (minutes, seconds)

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def format_number(number, SI=0, space=' '):

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"""Turn numbers into human-readable metric-like numbers"""

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symbols = ['', # (none)

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'k', # kilo

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'M', # mega

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'G', # giga

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'T', # tera

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'P', # peta

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'E', # exa

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'Z', # zetta

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'Y'] # yotta

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if SI: step = 1000.0

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else: step = 1024.0

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thresh = 999

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depth = 0

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# we want numbers between

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while number > thresh:

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depth = depth + 1

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number = number / step

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# just in case someone needs more than 1000 yottabytes!

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diff = depth - len(symbols) + 1

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if diff > 0:

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depth = depth - diff

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number = number * thresh**depth

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if type(number) == type(1) or type(number) == type(1L):

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format = '%i%s%s'

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elif number < 9.95:

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# must use 9.95 for proper sizing. For example, 9.99 will be

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# rounded to 10.0 with the .1f format string (which is too long)

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format = '%.1f%s%s'

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else:

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format = '%.0f%s%s'

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return(format % (float(number or 0), space, symbols[depth]))