mirror of
https://github.com/morpheus65535/bazarr
synced 2024-12-28 10:38:26 +00:00
321 lines
11 KiB
Python
321 lines
11 KiB
Python
"""
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GUI progressbar decorator for iterators.
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Includes a default (x)range iterator printing to stderr.
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Usage:
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>>> from tqdm.gui import trange[, tqdm]
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>>> for i in trange(10): #same as: for i in tqdm(xrange(10))
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... ...
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"""
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# future division is important to divide integers and get as
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# a result precise floating numbers (instead of truncated int)
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from __future__ import division, absolute_import
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# import compatibility functions and utilities
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from .utils import _range
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# to inherit from the tqdm class
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from .std import tqdm as std_tqdm
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from .std import TqdmExperimentalWarning
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from warnings import warn
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__author__ = {"github.com/": ["casperdcl", "lrq3000"]}
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__all__ = ['tqdm_gui', 'tgrange', 'tqdm', 'trange']
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class tqdm_gui(std_tqdm): # pragma: no cover
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"""
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Experimental GUI version of tqdm!
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"""
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# TODO: @classmethod: write() on GUI?
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def __init__(self, *args, **kwargs):
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import matplotlib as mpl
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import matplotlib.pyplot as plt
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from collections import deque
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kwargs['gui'] = True
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super(tqdm_gui, self).__init__(*args, **kwargs)
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# Initialize the GUI display
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if self.disable or not kwargs['gui']:
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return
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warn('GUI is experimental/alpha', TqdmExperimentalWarning, stacklevel=2)
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self.mpl = mpl
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self.plt = plt
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self.sp = None
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# Remember if external environment uses toolbars
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self.toolbar = self.mpl.rcParams['toolbar']
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self.mpl.rcParams['toolbar'] = 'None'
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self.mininterval = max(self.mininterval, 0.5)
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self.fig, ax = plt.subplots(figsize=(9, 2.2))
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# self.fig.subplots_adjust(bottom=0.2)
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total = len(self)
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if total is not None:
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self.xdata = []
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self.ydata = []
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self.zdata = []
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else:
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self.xdata = deque([])
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self.ydata = deque([])
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self.zdata = deque([])
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self.line1, = ax.plot(self.xdata, self.ydata, color='b')
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self.line2, = ax.plot(self.xdata, self.zdata, color='k')
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ax.set_ylim(0, 0.001)
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if total is not None:
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ax.set_xlim(0, 100)
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ax.set_xlabel('percent')
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self.fig.legend((self.line1, self.line2), ('cur', 'est'),
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loc='center right')
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# progressbar
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self.hspan = plt.axhspan(0, 0.001,
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xmin=0, xmax=0, color='g')
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else:
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# ax.set_xlim(-60, 0)
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ax.set_xlim(0, 60)
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ax.invert_xaxis()
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ax.set_xlabel('seconds')
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ax.legend(('cur', 'est'), loc='lower left')
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ax.grid()
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# ax.set_xlabel('seconds')
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ax.set_ylabel((self.unit if self.unit else 'it') + '/s')
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if self.unit_scale:
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plt.ticklabel_format(style='sci', axis='y',
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scilimits=(0, 0))
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ax.yaxis.get_offset_text().set_x(-0.15)
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# Remember if external environment is interactive
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self.wasion = plt.isinteractive()
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plt.ion()
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self.ax = ax
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def __iter__(self):
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# TODO: somehow allow the following:
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# if not self.gui:
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# return super(tqdm_gui, self).__iter__()
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iterable = self.iterable
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if self.disable:
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for obj in iterable:
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yield obj
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return
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# ncols = self.ncols
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mininterval = self.mininterval
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maxinterval = self.maxinterval
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miniters = self.miniters
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dynamic_miniters = self.dynamic_miniters
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last_print_t = self.last_print_t
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last_print_n = self.last_print_n
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n = self.n
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# dynamic_ncols = self.dynamic_ncols
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smoothing = self.smoothing
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avg_time = self.avg_time
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time = self._time
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for obj in iterable:
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yield obj
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# Update and possibly print the progressbar.
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# Note: does not call self.update(1) for speed optimisation.
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n += 1
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# check counter first to avoid calls to time()
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if n - last_print_n >= self.miniters:
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miniters = self.miniters # watch monitoring thread changes
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delta_t = time() - last_print_t
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if delta_t >= mininterval:
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cur_t = time()
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delta_it = n - last_print_n
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# EMA (not just overall average)
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if smoothing and delta_t and delta_it:
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rate = delta_t / delta_it
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avg_time = self.ema(rate, avg_time, smoothing)
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self.avg_time = avg_time
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self.n = n
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self.display()
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# If no `miniters` was specified, adjust automatically
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# to the max iteration rate seen so far between 2 prints
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if dynamic_miniters:
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if maxinterval and delta_t >= maxinterval:
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# Adjust miniters to time interval by rule of 3
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if mininterval:
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# Set miniters to correspond to mininterval
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miniters = delta_it * mininterval / delta_t
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else:
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# Set miniters to correspond to maxinterval
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miniters = delta_it * maxinterval / delta_t
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elif smoothing:
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# EMA-weight miniters to converge
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# towards the timeframe of mininterval
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rate = delta_it
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if mininterval and delta_t:
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rate *= mininterval / delta_t
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miniters = self.ema(rate, miniters, smoothing)
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else:
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# Maximum nb of iterations between 2 prints
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miniters = max(miniters, delta_it)
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# Store old values for next call
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self.n = self.last_print_n = last_print_n = n
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self.last_print_t = last_print_t = cur_t
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self.miniters = miniters
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# Closing the progress bar.
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# Update some internal variables for close().
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self.last_print_n = last_print_n
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self.n = n
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self.miniters = miniters
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self.close()
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def update(self, n=1):
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# if not self.gui:
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# return super(tqdm_gui, self).close()
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if self.disable:
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return
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if n < 0:
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self.last_print_n += n # for auto-refresh logic to work
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self.n += n
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# check counter first to reduce calls to time()
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if self.n - self.last_print_n >= self.miniters:
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delta_t = self._time() - self.last_print_t
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if delta_t >= self.mininterval:
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cur_t = self._time()
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delta_it = self.n - self.last_print_n # >= n
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# elapsed = cur_t - self.start_t
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# EMA (not just overall average)
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if self.smoothing and delta_t and delta_it:
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rate = delta_t / delta_it
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self.avg_time = self.ema(
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rate, self.avg_time, self.smoothing)
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self.display()
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# If no `miniters` was specified, adjust automatically to the
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# maximum iteration rate seen so far between two prints.
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# e.g.: After running `tqdm.update(5)`, subsequent
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# calls to `tqdm.update()` will only cause an update after
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# at least 5 more iterations.
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if self.dynamic_miniters:
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if self.maxinterval and delta_t >= self.maxinterval:
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if self.mininterval:
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self.miniters = delta_it * self.mininterval \
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/ delta_t
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else:
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self.miniters = delta_it * self.maxinterval \
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/ delta_t
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elif self.smoothing:
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self.miniters = self.smoothing * delta_it * \
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(self.mininterval / delta_t
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if self.mininterval and delta_t
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else 1) + \
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(1 - self.smoothing) * self.miniters
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else:
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self.miniters = max(self.miniters, delta_it)
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# Store old values for next call
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self.last_print_n = self.n
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self.last_print_t = cur_t
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def close(self):
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# if not self.gui:
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# return super(tqdm_gui, self).close()
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if self.disable:
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return
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self.disable = True
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with self.get_lock():
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self._instances.remove(self)
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# Restore toolbars
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self.mpl.rcParams['toolbar'] = self.toolbar
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# Return to non-interactive mode
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if not self.wasion:
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self.plt.ioff()
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if not self.leave:
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self.plt.close(self.fig)
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def display(self):
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n = self.n
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cur_t = self._time()
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elapsed = cur_t - self.start_t
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delta_it = n - self.last_print_n
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delta_t = cur_t - self.last_print_t
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# Inline due to multiple calls
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total = self.total
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xdata = self.xdata
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ydata = self.ydata
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zdata = self.zdata
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ax = self.ax
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line1 = self.line1
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line2 = self.line2
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# instantaneous rate
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y = delta_it / delta_t
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# overall rate
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z = n / elapsed
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# update line data
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xdata.append(n * 100.0 / total if total else cur_t)
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ydata.append(y)
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zdata.append(z)
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# Discard old values
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# xmin, xmax = ax.get_xlim()
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# if (not total) and elapsed > xmin * 1.1:
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if (not total) and elapsed > 66:
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xdata.popleft()
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ydata.popleft()
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zdata.popleft()
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ymin, ymax = ax.get_ylim()
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if y > ymax or z > ymax:
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ymax = 1.1 * y
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ax.set_ylim(ymin, ymax)
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ax.figure.canvas.draw()
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if total:
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line1.set_data(xdata, ydata)
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line2.set_data(xdata, zdata)
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try:
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poly_lims = self.hspan.get_xy()
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except AttributeError:
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self.hspan = self.plt.axhspan(
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0, 0.001, xmin=0, xmax=0, color='g')
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poly_lims = self.hspan.get_xy()
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poly_lims[0, 1] = ymin
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poly_lims[1, 1] = ymax
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poly_lims[2] = [n / total, ymax]
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poly_lims[3] = [poly_lims[2, 0], ymin]
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if len(poly_lims) > 4:
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poly_lims[4, 1] = ymin
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self.hspan.set_xy(poly_lims)
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else:
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t_ago = [cur_t - i for i in xdata]
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line1.set_data(t_ago, ydata)
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line2.set_data(t_ago, zdata)
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ax.set_title(self.format_meter(
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n, total, elapsed, 0,
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self.desc, self.ascii, self.unit, self.unit_scale,
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1 / self.avg_time if self.avg_time else None, self.bar_format,
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self.postfix, self.unit_divisor),
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fontname="DejaVu Sans Mono", fontsize=11)
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self.plt.pause(1e-9)
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def tgrange(*args, **kwargs):
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"""
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A shortcut for `tqdm.gui.tqdm(xrange(*args), **kwargs)`.
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On Python3+, `range` is used instead of `xrange`.
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"""
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return tqdm_gui(_range(*args), **kwargs)
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# Aliases
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tqdm = tqdm_gui
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trange = tgrange
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