mirror of
https://github.com/SickGear/SickGear.git
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cec4ed573d
Switched out sqlite3 libs in favour of SQLAlchemy v0.9, will gradually migrate dialects and scheme to be fully SQLAlchemy compliant for using there ORM with sessions instead of direct. Fixed getEpisode function to stop making unrequired scene number conversions on already converted data thats available now from cache.
241 lines
6.5 KiB
Python
241 lines
6.5 KiB
Python
# This is a backport of Python-2.4's threading.local() implementation
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"""Thread-local objects
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(Note that this module provides a Python version of thread
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threading.local class. Depending on the version of Python you're
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using, there may be a faster one available. You should always import
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the local class from threading.)
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Thread-local objects support the management of thread-local data.
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If you have data that you want to be local to a thread, simply create
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a thread-local object and use its attributes:
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>>> mydata = local()
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>>> mydata.number = 42
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>>> mydata.number
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42
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You can also access the local-object's dictionary:
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>>> mydata.__dict__
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{'number': 42}
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>>> mydata.__dict__.setdefault('widgets', [])
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[]
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>>> mydata.widgets
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[]
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What's important about thread-local objects is that their data are
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local to a thread. If we access the data in a different thread:
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>>> log = []
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>>> def f():
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... items = mydata.__dict__.items()
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... items.sort()
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... log.append(items)
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... mydata.number = 11
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... log.append(mydata.number)
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>>> import threading
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>>> thread = threading.Thread(target=f)
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>>> thread.start()
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>>> thread.join()
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>>> log
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[[], 11]
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we get different data. Furthermore, changes made in the other thread
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don't affect data seen in this thread:
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>>> mydata.number
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42
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Of course, values you get from a local object, including a __dict__
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attribute, are for whatever thread was current at the time the
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attribute was read. For that reason, you generally don't want to save
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these values across threads, as they apply only to the thread they
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came from.
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You can create custom local objects by subclassing the local class:
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>>> class MyLocal(local):
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... number = 2
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... initialized = False
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... def __init__(self, **kw):
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... if self.initialized:
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... raise SystemError('__init__ called too many times')
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... self.initialized = True
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... self.__dict__.update(kw)
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... def squared(self):
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... return self.number ** 2
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This can be useful to support default values, methods and
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initialization. Note that if you define an __init__ method, it will be
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called each time the local object is used in a separate thread. This
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is necessary to initialize each thread's dictionary.
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Now if we create a local object:
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>>> mydata = MyLocal(color='red')
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Now we have a default number:
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>>> mydata.number
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2
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an initial color:
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>>> mydata.color
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'red'
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>>> del mydata.color
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And a method that operates on the data:
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>>> mydata.squared()
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4
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As before, we can access the data in a separate thread:
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>>> log = []
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>>> thread = threading.Thread(target=f)
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>>> thread.start()
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>>> thread.join()
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>>> log
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[[('color', 'red'), ('initialized', True)], 11]
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without affecting this thread's data:
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>>> mydata.number
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2
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>>> mydata.color
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Traceback (most recent call last):
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...
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AttributeError: 'MyLocal' object has no attribute 'color'
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Note that subclasses can define slots, but they are not thread
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local. They are shared across threads:
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>>> class MyLocal(local):
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... __slots__ = 'number'
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>>> mydata = MyLocal()
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>>> mydata.number = 42
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>>> mydata.color = 'red'
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So, the separate thread:
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>>> thread = threading.Thread(target=f)
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>>> thread.start()
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>>> thread.join()
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affects what we see:
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>>> mydata.number
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11
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>>> del mydata
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"""
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# Threading import is at end
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class _localbase(object):
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__slots__ = '_local__key', '_local__args', '_local__lock'
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def __new__(cls, *args, **kw):
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self = object.__new__(cls)
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key = 'thread.local.' + str(id(self))
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object.__setattr__(self, '_local__key', key)
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object.__setattr__(self, '_local__args', (args, kw))
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object.__setattr__(self, '_local__lock', RLock())
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if args or kw and (cls.__init__ is object.__init__):
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raise TypeError("Initialization arguments are not supported")
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# We need to create the thread dict in anticipation of
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# __init__ being called, to make sure we don't call it
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# again ourselves.
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dict = object.__getattribute__(self, '__dict__')
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currentThread().__dict__[key] = dict
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return self
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def _patch(self):
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key = object.__getattribute__(self, '_local__key')
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d = currentThread().__dict__.get(key)
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if d is None:
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d = {}
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currentThread().__dict__[key] = d
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object.__setattr__(self, '__dict__', d)
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# we have a new instance dict, so call out __init__ if we have
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# one
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cls = type(self)
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if cls.__init__ is not object.__init__:
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args, kw = object.__getattribute__(self, '_local__args')
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cls.__init__(self, *args, **kw)
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else:
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object.__setattr__(self, '__dict__', d)
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class local(_localbase):
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def __getattribute__(self, name):
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lock = object.__getattribute__(self, '_local__lock')
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lock.acquire()
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try:
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_patch(self)
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return object.__getattribute__(self, name)
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finally:
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lock.release()
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def __setattr__(self, name, value):
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lock = object.__getattribute__(self, '_local__lock')
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lock.acquire()
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try:
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_patch(self)
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return object.__setattr__(self, name, value)
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finally:
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lock.release()
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def __delattr__(self, name):
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lock = object.__getattribute__(self, '_local__lock')
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lock.acquire()
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try:
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_patch(self)
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return object.__delattr__(self, name)
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finally:
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lock.release()
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def __del__():
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threading_enumerate = enumerate
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__getattribute__ = object.__getattribute__
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def __del__(self):
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key = __getattribute__(self, '_local__key')
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try:
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threads = list(threading_enumerate())
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except:
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# if enumerate fails, as it seems to do during
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# shutdown, we'll skip cleanup under the assumption
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# that there is nothing to clean up
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return
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for thread in threads:
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try:
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__dict__ = thread.__dict__
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except AttributeError:
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# Thread is dying, rest in peace
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continue
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if key in __dict__:
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try:
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del __dict__[key]
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except KeyError:
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pass # didn't have anything in this thread
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return __del__
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__del__ = __del__()
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from threading import currentThread, enumerate, RLock
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