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@ -2,11 +2,13 @@ import datetime
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import itertools
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import logging
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import os
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import random
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import signal
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import argh
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import gevent.backdoor
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import matplotlib
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import matplotlib.image
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import numpy as np
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import prometheus_client as prom
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@ -25,8 +27,14 @@ partial_segment_count_gauge = prom.Gauge(
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['channel', 'quality', 'hour'],
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)
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bad_segment_count_gauge = prom.Gauge(
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'bad_segment_count',
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'Number of segments that fail to parse in an hour',
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['channel', 'quality', 'hour'],
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)
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full_segment_duration_gauge = prom.Gauge(
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'full_segment_count',
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'full_segment_duration',
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'Full segment duration in an hour',
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['channel', 'quality', 'hour'],
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)
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@ -109,56 +117,67 @@ class CoverageChecker(object):
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self.logger.info('Stopping')
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self.stopping.set()
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def create_coverage_map(self, quality, all_hour_holes, all_hour_partials):
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"""Create a PNG show segment coverage for the last week."""
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def create_coverage_map(self, quality, all_hour_holes, all_hour_partials,
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pixel_length=2, hour_count=168):
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"""Create a PNG show segment coverage.
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If any part of a pixel does not have coverage, it is marked as not
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having coverage. Likewise, if only a partial segment is available for
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any part of a pixel, it is marked as partial.
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all_hour_holes -- a dict mapping hours to lists of holes
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all_hour_holes -- a dict mapping hours to lists of partial segments
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pixel_length -- length of a pixel in seconds
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hour_count -- number of hours to create the map for"""
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self.logger.info('Creating coverage map for {}'.format(quality))
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latest_hour = datetime.datetime.strptime(max(all_hour_holes.keys()), HOUR_FMT)
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hours = [latest_hour - datetime.timedelta(hours=i) for i in range(167, -1, -1)]
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hours = [latest_hour - datetime.timedelta(hours=i) for i in range(hour_count - 1, -1, -1)]
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pixel_starts = np.arange(0, 3600, 2)
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pixel_ends = np.arange(2, 3601, 2)
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pixel_starts = np.arange(0, 3600, pixel_length) # starts of the pixels in
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pixel_ends = np.arange(pixel_length, 3601, pixel_length)
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coverage_mask = np.zeros(168 * 1800, dtype=np.bool_)
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partial_mask = np.zeros(168 * 1800, dtype=np.bool_)
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pixel_count = 3600 / pixel_length # number of pixels in an hour
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coverage_mask = np.zeros(hour_count * pixel_count, dtype=np.bool_)
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partial_mask = np.zeros(hour_count * pixel_count, dtype=np.bool_)
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for i in range(len(hours)):
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hour = hours[i]
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if hour not in all_hour_holes:
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continue
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hour_str = hour.strftime(HOUR_FMT)
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if hour_str in all_hour_holes:
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else:
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hour_str = hour.strftime(HOUR_FMT)
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hour_coverage = np.ones(1800, dtype=np.bool_)
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hour_partial = np.zeros(1800, dtype=np.bool_)
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hour_coverage = np.ones(pixel_count, dtype=np.bool_)
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hour_partial = np.zeros(pixel_count, dtype=np.bool_)
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for hole in all_hour_holes[hour_str]:
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hole_start = np.floor((hole[0] - hour).seconds)
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hole_end = np.ceil((hole[1] - hour).seconds)
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hole_start = np.floor((hole[0] - hour).total_seconds() / pixel_length) * pixel_length # the start of the pixel containing the start of the hole
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hole_end = np.ceil((hole[1] - hour).total_seconds() / pixel_length) * pixel_length # the end of the pixel containing the end of the hole
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hour_coverage = hour_coverage & ((pixel_starts < hole_start) | (pixel_ends > hole_end))
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for partial in all_hour_partials[hour_str]:
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partial_start = np.floor((partial[0] - hour).seconds)
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partial_end = np.ceil((partial[1] - hour).seconds)
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partial_start = np.floor((partial[0] - hour).total_seconds() / pixel_length) * pixel_length
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partial_end = np.ceil((partial[1] - hour).total_seconds() / pixel_length) * pixel_length
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hour_partial = hour_partial | ((pixel_starts >= partial_start) & (pixel_ends <= partial_end))
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coverage_mask[i * 1800:(i + 1) * 1800] = hour_coverage
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partial_mask[i * 1800:(i + 1) * 1800] = hour_partial
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coverage_mask[i * pixel_count:(i + 1) * pixel_count] = hour_coverage
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partial_mask[i * pixel_count:(i + 1) * pixel_count] = hour_partial
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columns = 300
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rows = coverage_mask.size / columns
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rows = 300
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columns = coverage_mask.size / rows
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coverage_mask = coverage_mask.reshape((rows, columns)).T
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partial_mask = partial_mask.reshape((rows, columns)).T
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coverage_mask = coverage_mask.reshape((columns, rows)).T
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partial_mask = partial_mask.reshape((columns, rows)).T
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colours = np.ones((columns, rows, 3))
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colours = np.ones((rows, columns, 3))
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colours[coverage_mask] = matplotlib.colors.to_rgb('tab:blue')
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colours[coverage_mask & partial_mask] = matplotlib.colors.to_rgb('tab:orange')
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final_path = os.path.join(self.basedir, 'coverage-maps', '{}_{}_coverage.png'.format(self.channel, quality))
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temp_path = final_path.replace('_coverage', '_temp')
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final_path = os.path.join(self.base_dir, 'coverage-maps', '{}_{}_coverage.png'.format(self.channel, quality))
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temp_path = final_path.replace('_coverage', '_{}'.format(random.getrandbits(32)))
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common.ensure_directory(temp_path)
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matplotlib.image.imsave(temp_path, colours)
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os.rename(temp_path, final_path)
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self.logger.info('Coverage map for {} created'.format(quality))
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def run(self):
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"""Loop over available hours for each quality, checking segment coverage."""
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@ -186,12 +205,21 @@ class CoverageChecker(object):
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hour_path = os.path.join(self.base_dir, self.channel, quality, hour)
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segment_names = [name for name in os.listdir(hour_path) if not name.startswith('.')]
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if not segment_names:
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self.logger.info('{}/{} is empty'.format(quality, hour))
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continue
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segment_names.sort()
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parsed = (common.parse_segment_path(os.path.join(hour_path, name)) for name in segment_names)
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parsed = []
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bad_segment_count = 0
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for name in segment_names:
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try:
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parsed.append(common.parse_segment_path(os.path.join(hour_path, name)))
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except ValueError as e:
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self.logger.warn(e)
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bad_segment_count += 1
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#parsed = (common.parse_segment_path(os.path.join(hour_path, name)) for name in segment_names)
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if not parsed:
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self.logger.info('{}/{} is empty'.format(quality, hour))
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continue
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full_segment_count = 0
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partial_segment_count = 0
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@ -302,16 +330,31 @@ class CoverageChecker(object):
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editable_holes.append((end, hour_end))
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editable_hole_duration += hour_end - end
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#put all of the guages here
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self.logger.info('{}/{}: Start: {} End: {} ({} s)'.format(quality, hour, start, end, (end - start).seconds))
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self.logger.info('{}/{}: {} full segments totalling {} s'.format(quality, hour, full_segment_count, full_segment_duration.seconds))
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self.logger.info('{}/{}: {} overlapping full segments totalling {} s'.format(quality, hour, full_overlaps, full_overlap_duration.seconds))
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self.logger.info('{}/{}: {} partial segments totalling {} s'.format(quality, hour, partial_segment_count, partial_segment_duration.seconds))
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self.logger.info('{}/{}: {} overlapping partial segments totalling {} s'.format(quality, hour, partial_overlaps, partial_overlap_duration.seconds))
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self.logger.info('{}/{}: raw coverage {} s, editable coverage {} s '.format(quality, hour, coverage.seconds, editable_coverage.seconds))
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self.logger.info('{}/{}: {} holes totalling {} s '.format(quality, hour, len(holes), hole_duration.seconds))
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self.logger.info('{}/{}: {} editable holes totalling {} s '.format(quality, hour, len(editable_holes), editable_hole_duration.seconds))
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full_segment_count_gauge.labels(channel=self.channel, quality=quality, hour=hour).set(full_segment_count)
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partial_segment_count_gauge.labels(channel=self.channel, quality=quality, hour=hour).set(partial_segment_count)
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bad_segment_count_gauge.labels(channel=self.channel, quality=quality, hour=hour).set(bad_segment_count)
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full_segment_duration_gauge.labels(channel=self.channel, quality=quality, hour=hour).set(full_segment_duration.total_seconds())
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partial_segment_duration_gauge.labels(channel=self.channel, quality=quality, hour=hour).set(partial_segment_duration.total_seconds())
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raw_coverage_gauge.labels(channel=self.channel, quality=quality, hour=hour).set(coverage.total_seconds())
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editable_coverage_gauge.labels(channel=self.channel, quality=quality, hour=hour).set(editable_coverage.total_seconds())
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raw_holes_gauge.labels(channel=self.channel, quality=quality, hour=hour).set(len(holes))
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editable_holes_gauge.labels(channel=self.channel, quality=quality, hour=hour).set(len(editable_holes))
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full_overlap_count_gauge.labels(channel=self.channel, quality=quality, hour=hour).set(full_overlaps)
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partial_overlap_count_gauge.labels(channel=self.channel, quality=quality, hour=hour).set(partial_overlaps)
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full_overlap_duration_gauge.labels(channel=self.channel, quality=quality, hour=hour).set(full_overlap_duration.total_seconds())
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partial_overlap_duration_gauge.labels(channel=self.channel, quality=quality, hour=hour).set(partial_overlap_duration.total_seconds())
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self.logger.info('{}/{}: Start: {} End: {} ({} s)'.format(quality, hour, start, end, (end - start).total_seconds()))
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self.logger.info('{}/{}: {} full segments totalling {} s'.format(quality, hour, full_segment_count, full_segment_duration.total_seconds()))
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self.logger.info('{}/{}: {} bad segments'.format(quality, hour, bad_segment_count))
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self.logger.info('{}/{}: {} overlapping full segments totalling {} s'.format(quality, hour, full_overlaps, full_overlap_duration.total_seconds()))
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self.logger.info('{}/{}: {} partial segments totalling {} s'.format(quality, hour, partial_segment_count, partial_segment_duration.total_seconds()))
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self.logger.info('{}/{}: {} overlapping partial segments totalling {} s'.format(quality, hour, partial_overlaps, partial_overlap_duration.total_seconds()))
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self.logger.info('{}/{}: raw coverage {} s, editable coverage {} s '.format(quality, hour, coverage.total_seconds(), editable_coverage.total_seconds()))
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self.logger.info('{}/{}: {} holes totalling {} s '.format(quality, hour, len(holes), hole_duration.total_seconds()))
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self.logger.info('{}/{}: {} editable holes totalling {} s '.format(quality, hour, len(editable_holes), editable_hole_duration.total_seconds()))
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self.logger.info('Checking {}/{} complete'.format(quality, hour))
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# add holes for the start and end hours for the coverage map
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