404 lines
14 KiB
Python
404 lines
14 KiB
Python
import copy
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import operator
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from functools import wraps
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import sys
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from django.utils import six
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# You can't trivially replace this with `functools.partial` because this binds
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# to classes and returns bound instances, whereas functools.partial (on
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# CPython) is a type and its instances don't bind.
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def curry(_curried_func, *args, **kwargs):
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def _curried(*moreargs, **morekwargs):
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return _curried_func(*(args + moreargs), **dict(kwargs, **morekwargs))
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return _curried
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def memoize(func, cache, num_args):
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"""
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Wrap a function so that results for any argument tuple are stored in
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'cache'. Note that the args to the function must be usable as dictionary
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keys.
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Only the first num_args are considered when creating the key.
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"""
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@wraps(func)
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def wrapper(*args):
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mem_args = args[:num_args]
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if mem_args in cache:
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return cache[mem_args]
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result = func(*args)
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cache[mem_args] = result
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return result
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return wrapper
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class cached_property(object):
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"""
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Decorator that converts a method with a single self argument into a
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property cached on the instance.
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"""
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def __init__(self, func):
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self.func = func
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def __get__(self, instance, type=None):
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if instance is None:
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return self
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res = instance.__dict__[self.func.__name__] = self.func(instance)
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return res
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class Promise(object):
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"""
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This is just a base class for the proxy class created in
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the closure of the lazy function. It can be used to recognize
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promises in code.
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"""
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pass
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def lazy(func, *resultclasses):
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"""
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Turns any callable into a lazy evaluated callable. You need to give result
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classes or types -- at least one is needed so that the automatic forcing of
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the lazy evaluation code is triggered. Results are not memoized; the
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function is evaluated on every access.
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"""
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@total_ordering
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class __proxy__(Promise):
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"""
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Encapsulate a function call and act as a proxy for methods that are
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called on the result of that function. The function is not evaluated
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until one of the methods on the result is called.
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"""
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__dispatch = None
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def __init__(self, args, kw):
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self.__args = args
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self.__kw = kw
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if self.__dispatch is None:
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self.__prepare_class__()
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def __reduce__(self):
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return (
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_lazy_proxy_unpickle,
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(func, self.__args, self.__kw) + resultclasses
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)
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def __prepare_class__(cls):
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cls.__dispatch = {}
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for resultclass in resultclasses:
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cls.__dispatch[resultclass] = {}
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for type_ in reversed(resultclass.mro()):
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for (k, v) in type_.__dict__.items():
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# All __promise__ return the same wrapper method, but
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# they also do setup, inserting the method into the
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# dispatch dict.
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meth = cls.__promise__(resultclass, k, v)
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if hasattr(cls, k):
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continue
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setattr(cls, k, meth)
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cls._delegate_bytes = bytes in resultclasses
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cls._delegate_text = six.text_type in resultclasses
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assert not (cls._delegate_bytes and cls._delegate_text), "Cannot call lazy() with both bytes and text return types."
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if cls._delegate_text:
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if six.PY3:
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cls.__str__ = cls.__text_cast
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else:
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cls.__unicode__ = cls.__text_cast
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elif cls._delegate_bytes:
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if six.PY3:
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cls.__bytes__ = cls.__bytes_cast
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else:
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cls.__str__ = cls.__bytes_cast
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__prepare_class__ = classmethod(__prepare_class__)
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def __promise__(cls, klass, funcname, method):
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# Builds a wrapper around some magic method and registers that
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# magic method for the given type and method name.
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def __wrapper__(self, *args, **kw):
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# Automatically triggers the evaluation of a lazy value and
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# applies the given magic method of the result type.
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res = func(*self.__args, **self.__kw)
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for t in type(res).mro():
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if t in self.__dispatch:
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return self.__dispatch[t][funcname](res, *args, **kw)
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raise TypeError("Lazy object returned unexpected type.")
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if klass not in cls.__dispatch:
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cls.__dispatch[klass] = {}
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cls.__dispatch[klass][funcname] = method
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return __wrapper__
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__promise__ = classmethod(__promise__)
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def __text_cast(self):
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return func(*self.__args, **self.__kw)
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def __bytes_cast(self):
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return bytes(func(*self.__args, **self.__kw))
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def __cast(self):
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if self._delegate_bytes:
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return self.__bytes_cast()
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elif self._delegate_text:
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return self.__text_cast()
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else:
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return func(*self.__args, **self.__kw)
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def __eq__(self, other):
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if isinstance(other, Promise):
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other = other.__cast()
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return self.__cast() == other
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def __lt__(self, other):
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if isinstance(other, Promise):
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other = other.__cast()
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return self.__cast() < other
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def __hash__(self):
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return hash(self.__cast())
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def __mod__(self, rhs):
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if self._delegate_bytes and not six.PY3:
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return bytes(self) % rhs
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elif self._delegate_text:
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return six.text_type(self) % rhs
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return self.__cast() % rhs
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def __deepcopy__(self, memo):
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# Instances of this class are effectively immutable. It's just a
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# collection of functions. So we don't need to do anything
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# complicated for copying.
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memo[id(self)] = self
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return self
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@wraps(func)
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def __wrapper__(*args, **kw):
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# Creates the proxy object, instead of the actual value.
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return __proxy__(args, kw)
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return __wrapper__
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def _lazy_proxy_unpickle(func, args, kwargs, *resultclasses):
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return lazy(func, *resultclasses)(*args, **kwargs)
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def allow_lazy(func, *resultclasses):
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"""
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A decorator that allows a function to be called with one or more lazy
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arguments. If none of the args are lazy, the function is evaluated
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immediately, otherwise a __proxy__ is returned that will evaluate the
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function when needed.
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"""
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@wraps(func)
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def wrapper(*args, **kwargs):
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for arg in list(args) + list(six.itervalues(kwargs)):
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if isinstance(arg, Promise):
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break
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else:
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return func(*args, **kwargs)
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return lazy(func, *resultclasses)(*args, **kwargs)
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return wrapper
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empty = object()
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def new_method_proxy(func):
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def inner(self, *args):
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if self._wrapped is empty:
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self._setup()
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return func(self._wrapped, *args)
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return inner
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class LazyObject(object):
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"""
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A wrapper for another class that can be used to delay instantiation of the
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wrapped class.
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By subclassing, you have the opportunity to intercept and alter the
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instantiation. If you don't need to do that, use SimpleLazyObject.
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"""
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def __init__(self):
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self._wrapped = empty
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__getattr__ = new_method_proxy(getattr)
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def __setattr__(self, name, value):
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if name == "_wrapped":
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# Assign to __dict__ to avoid infinite __setattr__ loops.
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self.__dict__["_wrapped"] = value
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else:
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if self._wrapped is empty:
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self._setup()
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setattr(self._wrapped, name, value)
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def __delattr__(self, name):
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if name == "_wrapped":
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raise TypeError("can't delete _wrapped.")
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if self._wrapped is empty:
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self._setup()
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delattr(self._wrapped, name)
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def _setup(self):
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"""
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Must be implemented by subclasses to initialise the wrapped object.
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"""
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raise NotImplementedError
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# introspection support:
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__dir__ = new_method_proxy(dir)
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# Workaround for http://bugs.python.org/issue12370
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_super = super
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class SimpleLazyObject(LazyObject):
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"""
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A lazy object initialised from any function.
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Designed for compound objects of unknown type. For builtins or objects of
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known type, use django.utils.functional.lazy.
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"""
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def __init__(self, func):
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"""
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Pass in a callable that returns the object to be wrapped.
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If copies are made of the resulting SimpleLazyObject, which can happen
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in various circumstances within Django, then you must ensure that the
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callable can be safely run more than once and will return the same
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value.
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"""
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self.__dict__['_setupfunc'] = func
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_super(SimpleLazyObject, self).__init__()
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def _setup(self):
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self._wrapped = self._setupfunc()
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if six.PY3:
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__bytes__ = new_method_proxy(bytes)
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__str__ = new_method_proxy(str)
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else:
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__str__ = new_method_proxy(str)
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__unicode__ = new_method_proxy(unicode)
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def __deepcopy__(self, memo):
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if self._wrapped is empty:
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# We have to use SimpleLazyObject, not self.__class__, because the
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# latter is proxied.
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result = SimpleLazyObject(self._setupfunc)
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memo[id(self)] = result
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return result
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else:
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return copy.deepcopy(self._wrapped, memo)
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# Because we have messed with __class__ below, we confuse pickle as to what
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# class we are pickling. It also appears to stop __reduce__ from being
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# called. So, we define __getstate__ in a way that cooperates with the way
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# that pickle interprets this class. This fails when the wrapped class is
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# a builtin, but it is better than nothing.
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def __getstate__(self):
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if self._wrapped is empty:
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self._setup()
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return self._wrapped.__dict__
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# Python 3.3 will call __reduce__ when pickling; these methods are needed
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# to serialize and deserialize correctly. They are not called in earlier
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# versions of Python.
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@classmethod
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def __newobj__(cls, *args):
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return cls.__new__(cls, *args)
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def __reduce__(self):
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return (self.__newobj__, (self.__class__,), self.__getstate__())
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# Return a meaningful representation of the lazy object for debugging
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# without evaluating the wrapped object.
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def __repr__(self):
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if self._wrapped is empty:
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repr_attr = self._setupfunc
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else:
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repr_attr = self._wrapped
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return '<SimpleLazyObject: %r>' % repr_attr
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# Need to pretend to be the wrapped class, for the sake of objects that
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# care about this (especially in equality tests)
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__class__ = property(new_method_proxy(operator.attrgetter("__class__")))
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__eq__ = new_method_proxy(operator.eq)
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__hash__ = new_method_proxy(hash)
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__bool__ = new_method_proxy(bool) # Python 3
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__nonzero__ = __bool__ # Python 2
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class lazy_property(property):
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"""
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A property that works with subclasses by wrapping the decorated
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functions of the base class.
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"""
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def __new__(cls, fget=None, fset=None, fdel=None, doc=None):
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if fget is not None:
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@wraps(fget)
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def fget(instance, instance_type=None, name=fget.__name__):
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return getattr(instance, name)()
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if fset is not None:
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@wraps(fset)
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def fset(instance, value, name=fset.__name__):
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return getattr(instance, name)(value)
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if fdel is not None:
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@wraps(fdel)
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def fdel(instance, name=fdel.__name__):
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return getattr(instance, name)()
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return property(fget, fset, fdel, doc)
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def partition(predicate, values):
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"""
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Splits the values into two sets, based on the return value of the function
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(True/False). e.g.:
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>>> partition(lambda x: x > 3, range(5))
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[0, 1, 2, 3], [4]
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"""
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results = ([], [])
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for item in values:
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results[predicate(item)].append(item)
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return results
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if sys.version_info >= (2, 7, 2):
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from functools import total_ordering
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else:
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# For Python < 2.7.2. Python 2.6 does not have total_ordering, and
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# total_ordering in 2.7 versions prior to 2.7.2 is buggy. See
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# http://bugs.python.org/issue10042 for details. For these versions use
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# code borrowed from Python 2.7.3.
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def total_ordering(cls):
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"""Class decorator that fills in missing ordering methods"""
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convert = {
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'__lt__': [('__gt__', lambda self, other: not (self < other or self == other)),
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('__le__', lambda self, other: self < other or self == other),
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('__ge__', lambda self, other: not self < other)],
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'__le__': [('__ge__', lambda self, other: not self <= other or self == other),
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('__lt__', lambda self, other: self <= other and not self == other),
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('__gt__', lambda self, other: not self <= other)],
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'__gt__': [('__lt__', lambda self, other: not (self > other or self == other)),
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('__ge__', lambda self, other: self > other or self == other),
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('__le__', lambda self, other: not self > other)],
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'__ge__': [('__le__', lambda self, other: (not self >= other) or self == other),
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('__gt__', lambda self, other: self >= other and not self == other),
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('__lt__', lambda self, other: not self >= other)]
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}
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roots = set(dir(cls)) & set(convert)
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if not roots:
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raise ValueError('must define at least one ordering operation: < > <= >=')
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root = max(roots) # prefer __lt__ to __le__ to __gt__ to __ge__
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for opname, opfunc in convert[root]:
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if opname not in roots:
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opfunc.__name__ = opname
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opfunc.__doc__ = getattr(int, opname).__doc__
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setattr(cls, opname, opfunc)
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return cls
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