mirror of
https://github.com/moparisthebest/SickRage
synced 2024-11-06 01:15:05 -05:00
0d9fbc1ad7
This version of SickBeard uses both TVDB and TVRage to search and gather it's series data from allowing you to now have access to and download shows that you couldn't before because of being locked into only what TheTVDB had to offer. Also this edition is based off the code we used in our XEM editon so it does come with scene numbering support as well as all the other features our XEM edition has to offer. Please before using this with your existing database (sickbeard.db) please make a backup copy of it and delete any other database files such as cache.db and failed.db if present, we HIGHLY recommend starting out with no database files at all to make this a fresh start but the choice is at your own risk! Enjoy!
211 lines
6.6 KiB
Python
211 lines
6.6 KiB
Python
from lib.hachoir_core.tools import humanDurationNanosec
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from lib.hachoir_core.i18n import _
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from math import floor
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from time import time
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class BenchmarkError(Exception):
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"""
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Error during benchmark, use str(err) to format it as string.
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"""
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def __init__(self, message):
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Exception.__init__(self,
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"Benchmark internal error: %s" % message)
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class BenchmarkStat:
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"""
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Benchmark statistics. This class automatically computes minimum value,
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maximum value and sum of all values.
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Methods:
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- append(value): append a value
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- getMin(): minimum value
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- getMax(): maximum value
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- getSum(): sum of all values
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- __len__(): get number of elements
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- __nonzero__(): isn't empty?
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"""
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def __init__(self):
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self._values = []
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def append(self, value):
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self._values.append(value)
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try:
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self._min = min(self._min, value)
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self._max = max(self._max, value)
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self._sum += value
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except AttributeError:
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self._min = value
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self._max = value
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self._sum = value
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def __len__(self):
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return len(self._values)
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def __nonzero__(self):
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return bool(self._values)
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def getMin(self):
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return self._min
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def getMax(self):
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return self._max
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def getSum(self):
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return self._sum
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class Benchmark:
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def __init__(self, max_time=5.0,
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min_count=5, max_count=None, progress_time=1.0):
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"""
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Constructor:
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- max_time: Maximum wanted duration of the whole benchmark
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(default: 5 seconds, minimum: 1 second).
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- min_count: Minimum number of function calls to get good statistics
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(defaut: 5, minimum: 1).
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- progress_time: Time between each "progress" message
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(default: 1 second, minimum: 250 ms).
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- max_count: Maximum number of function calls (default: no limit).
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- verbose: Is verbose? (default: False)
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- disable_gc: Disable garbage collector? (default: False)
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"""
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self.max_time = max(max_time, 1.0)
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self.min_count = max(min_count, 1)
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self.max_count = max_count
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self.progress_time = max(progress_time, 0.25)
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self.verbose = False
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self.disable_gc = False
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def formatTime(self, value):
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"""
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Format a time delta to string: use humanDurationNanosec()
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"""
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return humanDurationNanosec(value * 1000000000)
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def displayStat(self, stat):
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"""
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Display statistics to stdout:
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- best time (minimum)
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- average time (arithmetic average)
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- worst time (maximum)
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- total time (sum)
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Use arithmetic avertage instead of geometric average because
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geometric fails if any value is zero (returns zero) and also
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because floating point multiplication lose precision with many
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values.
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"""
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average = stat.getSum() / len(stat)
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values = (stat.getMin(), average, stat.getMax(), stat.getSum())
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values = tuple(self.formatTime(value) for value in values)
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print _("Benchmark: best=%s average=%s worst=%s total=%s") \
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% values
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def _runOnce(self, func, args, kw):
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before = time()
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func(*args, **kw)
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after = time()
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return after - before
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def _run(self, func, args, kw):
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"""
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Call func(*args, **kw) as many times as needed to get
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good statistics. Algorithm:
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- call the function once
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- compute needed number of calls
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- and then call function N times
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To compute number of calls, parameters are:
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- time of first function call
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- minimum number of calls (min_count attribute)
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- maximum test time (max_time attribute)
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Notice: The function will approximate number of calls.
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"""
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# First call of the benchmark
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stat = BenchmarkStat()
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diff = self._runOnce(func, args, kw)
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best = diff
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stat.append(diff)
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total_time = diff
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# Compute needed number of calls
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count = int(floor(self.max_time / diff))
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count = max(count, self.min_count)
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if self.max_count:
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count = min(count, self.max_count)
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# Not other call? Just exit
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if count == 1:
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return stat
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estimate = diff * count
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if self.verbose:
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print _("Run benchmark: %s calls (estimate: %s)") \
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% (count, self.formatTime(estimate))
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display_progress = self.verbose and (1.0 <= estimate)
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total_count = 1
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while total_count < count:
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# Run benchmark and display each result
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if display_progress:
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print _("Result %s/%s: %s (best: %s)") % \
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(total_count, count,
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self.formatTime(diff), self.formatTime(best))
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part = count - total_count
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# Will takes more than one second?
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average = total_time / total_count
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if self.progress_time < part * average:
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part = max( int(self.progress_time / average), 1)
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for index in xrange(part):
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diff = self._runOnce(func, args, kw)
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stat.append(diff)
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total_time += diff
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best = min(diff, best)
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total_count += part
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if display_progress:
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print _("Result %s/%s: %s (best: %s)") % \
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(count, count,
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self.formatTime(diff), self.formatTime(best))
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return stat
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def validateStat(self, stat):
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"""
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Check statistics and raise a BenchmarkError if they are invalid.
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Example of tests: reject empty stat, reject stat with only nul values.
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"""
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if not stat:
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raise BenchmarkError("empty statistics")
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if not stat.getSum():
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raise BenchmarkError("nul statistics")
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def run(self, func, *args, **kw):
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"""
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Run function func(*args, **kw), validate statistics,
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and display the result on stdout.
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Disable garbage collector if asked too.
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"""
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# Disable garbarge collector is needed and if it does exist
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# (Jython 2.2 don't have it for example)
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if self.disable_gc:
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try:
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import gc
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except ImportError:
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self.disable_gc = False
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if self.disable_gc:
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gc_enabled = gc.isenabled()
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gc.disable()
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else:
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gc_enabled = False
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# Run the benchmark
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stat = self._run(func, args, kw)
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if gc_enabled:
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gc.enable()
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# Validate and display stats
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self.validateStat(stat)
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self.displayStat(stat)
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