mirror of
https://github.com/clinton-hall/nzbToMedia.git
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489 lines
15 KiB
Python
489 lines
15 KiB
Python
"""
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An OrderedSet is a custom MutableSet that remembers its order, so that every
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entry has an index that can be looked up.
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Based on a recipe originally posted to ActiveState Recipes by Raymond Hettiger,
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and released under the MIT license.
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"""
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import itertools as it
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from collections import deque
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try:
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# Python 3
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from collections.abc import MutableSet, Sequence
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except ImportError:
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# Python 2.7
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from collections import MutableSet, Sequence
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SLICE_ALL = slice(None)
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__version__ = "3.1"
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def is_iterable(obj):
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"""
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Are we being asked to look up a list of things, instead of a single thing?
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We check for the `__iter__` attribute so that this can cover types that
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don't have to be known by this module, such as NumPy arrays.
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Strings, however, should be considered as atomic values to look up, not
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iterables. The same goes for tuples, since they are immutable and therefore
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valid entries.
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We don't need to check for the Python 2 `unicode` type, because it doesn't
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have an `__iter__` attribute anyway.
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"""
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return (
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hasattr(obj, "__iter__")
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and not isinstance(obj, str)
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and not isinstance(obj, tuple)
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)
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class OrderedSet(MutableSet, Sequence):
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"""
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An OrderedSet is a custom MutableSet that remembers its order, so that
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every entry has an index that can be looked up.
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Example:
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>>> OrderedSet([1, 1, 2, 3, 2])
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OrderedSet([1, 2, 3])
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"""
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def __init__(self, iterable=None):
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self.items = []
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self.map = {}
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if iterable is not None:
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self |= iterable
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def __len__(self):
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"""
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Returns the number of unique elements in the ordered set
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Example:
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>>> len(OrderedSet([]))
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0
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>>> len(OrderedSet([1, 2]))
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2
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"""
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return len(self.items)
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def __getitem__(self, index):
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"""
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Get the item at a given index.
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If `index` is a slice, you will get back that slice of items, as a
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new OrderedSet.
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If `index` is a list or a similar iterable, you'll get a list of
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items corresponding to those indices. This is similar to NumPy's
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"fancy indexing". The result is not an OrderedSet because you may ask
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for duplicate indices, and the number of elements returned should be
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the number of elements asked for.
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Example:
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>>> oset = OrderedSet([1, 2, 3])
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>>> oset[1]
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2
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"""
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if isinstance(index, slice) and index == SLICE_ALL:
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return self.copy()
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elif is_iterable(index):
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return [self.items[i] for i in index]
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elif hasattr(index, "__index__") or isinstance(index, slice):
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result = self.items[index]
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if isinstance(result, list):
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return self.__class__(result)
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else:
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return result
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else:
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raise TypeError("Don't know how to index an OrderedSet by %r" % index)
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def copy(self):
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"""
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Return a shallow copy of this object.
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Example:
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>>> this = OrderedSet([1, 2, 3])
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>>> other = this.copy()
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>>> this == other
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True
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>>> this is other
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False
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"""
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return self.__class__(self)
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def __getstate__(self):
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if len(self) == 0:
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# The state can't be an empty list.
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# We need to return a truthy value, or else __setstate__ won't be run.
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#
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# This could have been done more gracefully by always putting the state
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# in a tuple, but this way is backwards- and forwards- compatible with
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# previous versions of OrderedSet.
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return (None,)
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else:
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return list(self)
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def __setstate__(self, state):
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if state == (None,):
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self.__init__([])
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else:
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self.__init__(state)
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def __contains__(self, key):
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"""
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Test if the item is in this ordered set
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Example:
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>>> 1 in OrderedSet([1, 3, 2])
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True
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>>> 5 in OrderedSet([1, 3, 2])
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False
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"""
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return key in self.map
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def add(self, key):
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"""
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Add `key` as an item to this OrderedSet, then return its index.
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If `key` is already in the OrderedSet, return the index it already
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had.
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Example:
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>>> oset = OrderedSet()
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>>> oset.append(3)
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0
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>>> print(oset)
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OrderedSet([3])
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"""
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if key not in self.map:
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self.map[key] = len(self.items)
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self.items.append(key)
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return self.map[key]
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append = add
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def update(self, sequence):
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"""
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Update the set with the given iterable sequence, then return the index
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of the last element inserted.
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Example:
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>>> oset = OrderedSet([1, 2, 3])
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>>> oset.update([3, 1, 5, 1, 4])
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4
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>>> print(oset)
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OrderedSet([1, 2, 3, 5, 4])
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"""
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item_index = None
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try:
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for item in sequence:
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item_index = self.add(item)
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except TypeError:
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raise ValueError(
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"Argument needs to be an iterable, got %s" % type(sequence)
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)
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return item_index
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def index(self, key):
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"""
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Get the index of a given entry, raising an IndexError if it's not
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present.
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`key` can be an iterable of entries that is not a string, in which case
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this returns a list of indices.
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Example:
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>>> oset = OrderedSet([1, 2, 3])
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>>> oset.index(2)
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1
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"""
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if is_iterable(key):
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return [self.index(subkey) for subkey in key]
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return self.map[key]
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# Provide some compatibility with pd.Index
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get_loc = index
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get_indexer = index
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def pop(self):
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"""
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Remove and return the last element from the set.
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Raises KeyError if the set is empty.
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Example:
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>>> oset = OrderedSet([1, 2, 3])
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>>> oset.pop()
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3
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"""
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if not self.items:
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raise KeyError("Set is empty")
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elem = self.items[-1]
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del self.items[-1]
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del self.map[elem]
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return elem
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def discard(self, key):
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"""
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Remove an element. Do not raise an exception if absent.
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The MutableSet mixin uses this to implement the .remove() method, which
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*does* raise an error when asked to remove a non-existent item.
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Example:
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>>> oset = OrderedSet([1, 2, 3])
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>>> oset.discard(2)
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>>> print(oset)
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OrderedSet([1, 3])
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>>> oset.discard(2)
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>>> print(oset)
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OrderedSet([1, 3])
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"""
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if key in self:
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i = self.map[key]
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del self.items[i]
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del self.map[key]
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for k, v in self.map.items():
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if v >= i:
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self.map[k] = v - 1
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def clear(self):
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"""
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Remove all items from this OrderedSet.
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"""
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del self.items[:]
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self.map.clear()
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def __iter__(self):
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"""
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Example:
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>>> list(iter(OrderedSet([1, 2, 3])))
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[1, 2, 3]
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"""
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return iter(self.items)
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def __reversed__(self):
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"""
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Example:
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>>> list(reversed(OrderedSet([1, 2, 3])))
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[3, 2, 1]
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"""
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return reversed(self.items)
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def __repr__(self):
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if not self:
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return "%s()" % (self.__class__.__name__,)
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return "%s(%r)" % (self.__class__.__name__, list(self))
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def __eq__(self, other):
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"""
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Returns true if the containers have the same items. If `other` is a
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Sequence, then order is checked, otherwise it is ignored.
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Example:
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>>> oset = OrderedSet([1, 3, 2])
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>>> oset == [1, 3, 2]
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True
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>>> oset == [1, 2, 3]
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False
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>>> oset == [2, 3]
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False
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>>> oset == OrderedSet([3, 2, 1])
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False
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"""
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# In Python 2 deque is not a Sequence, so treat it as one for
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# consistent behavior with Python 3.
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if isinstance(other, (Sequence, deque)):
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# Check that this OrderedSet contains the same elements, in the
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# same order, as the other object.
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return list(self) == list(other)
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try:
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other_as_set = set(other)
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except TypeError:
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# If `other` can't be converted into a set, it's not equal.
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return False
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else:
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return set(self) == other_as_set
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def union(self, *sets):
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"""
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Combines all unique items.
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Each items order is defined by its first appearance.
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Example:
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>>> oset = OrderedSet.union(OrderedSet([3, 1, 4, 1, 5]), [1, 3], [2, 0])
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>>> print(oset)
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OrderedSet([3, 1, 4, 5, 2, 0])
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>>> oset.union([8, 9])
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OrderedSet([3, 1, 4, 5, 2, 0, 8, 9])
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>>> oset | {10}
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OrderedSet([3, 1, 4, 5, 2, 0, 10])
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"""
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cls = self.__class__ if isinstance(self, OrderedSet) else OrderedSet
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containers = map(list, it.chain([self], sets))
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items = it.chain.from_iterable(containers)
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return cls(items)
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def __and__(self, other):
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# the parent implementation of this is backwards
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return self.intersection(other)
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def intersection(self, *sets):
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"""
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Returns elements in common between all sets. Order is defined only
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by the first set.
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Example:
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>>> oset = OrderedSet.intersection(OrderedSet([0, 1, 2, 3]), [1, 2, 3])
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>>> print(oset)
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OrderedSet([1, 2, 3])
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>>> oset.intersection([2, 4, 5], [1, 2, 3, 4])
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OrderedSet([2])
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>>> oset.intersection()
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OrderedSet([1, 2, 3])
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"""
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cls = self.__class__ if isinstance(self, OrderedSet) else OrderedSet
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if sets:
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common = set.intersection(*map(set, sets))
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items = (item for item in self if item in common)
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else:
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items = self
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return cls(items)
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def difference(self, *sets):
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"""
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Returns all elements that are in this set but not the others.
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Example:
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>>> OrderedSet([1, 2, 3]).difference(OrderedSet([2]))
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OrderedSet([1, 3])
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>>> OrderedSet([1, 2, 3]).difference(OrderedSet([2]), OrderedSet([3]))
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OrderedSet([1])
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>>> OrderedSet([1, 2, 3]) - OrderedSet([2])
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OrderedSet([1, 3])
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>>> OrderedSet([1, 2, 3]).difference()
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OrderedSet([1, 2, 3])
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"""
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cls = self.__class__
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if sets:
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other = set.union(*map(set, sets))
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items = (item for item in self if item not in other)
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else:
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items = self
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return cls(items)
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def issubset(self, other):
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"""
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Report whether another set contains this set.
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Example:
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>>> OrderedSet([1, 2, 3]).issubset({1, 2})
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False
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>>> OrderedSet([1, 2, 3]).issubset({1, 2, 3, 4})
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True
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>>> OrderedSet([1, 2, 3]).issubset({1, 4, 3, 5})
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False
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"""
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if len(self) > len(other): # Fast check for obvious cases
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return False
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return all(item in other for item in self)
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def issuperset(self, other):
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"""
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Report whether this set contains another set.
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Example:
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>>> OrderedSet([1, 2]).issuperset([1, 2, 3])
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False
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>>> OrderedSet([1, 2, 3, 4]).issuperset({1, 2, 3})
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True
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>>> OrderedSet([1, 4, 3, 5]).issuperset({1, 2, 3})
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False
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"""
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if len(self) < len(other): # Fast check for obvious cases
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return False
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return all(item in self for item in other)
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def symmetric_difference(self, other):
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"""
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Return the symmetric difference of two OrderedSets as a new set.
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That is, the new set will contain all elements that are in exactly
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one of the sets.
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Their order will be preserved, with elements from `self` preceding
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elements from `other`.
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Example:
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>>> this = OrderedSet([1, 4, 3, 5, 7])
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>>> other = OrderedSet([9, 7, 1, 3, 2])
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>>> this.symmetric_difference(other)
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OrderedSet([4, 5, 9, 2])
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"""
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cls = self.__class__ if isinstance(self, OrderedSet) else OrderedSet
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diff1 = cls(self).difference(other)
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diff2 = cls(other).difference(self)
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return diff1.union(diff2)
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def _update_items(self, items):
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"""
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Replace the 'items' list of this OrderedSet with a new one, updating
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self.map accordingly.
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"""
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self.items = items
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self.map = {item: idx for (idx, item) in enumerate(items)}
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def difference_update(self, *sets):
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"""
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Update this OrderedSet to remove items from one or more other sets.
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Example:
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>>> this = OrderedSet([1, 2, 3])
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>>> this.difference_update(OrderedSet([2, 4]))
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>>> print(this)
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OrderedSet([1, 3])
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>>> this = OrderedSet([1, 2, 3, 4, 5])
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>>> this.difference_update(OrderedSet([2, 4]), OrderedSet([1, 4, 6]))
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>>> print(this)
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OrderedSet([3, 5])
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"""
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items_to_remove = set()
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for other in sets:
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items_to_remove |= set(other)
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self._update_items([item for item in self.items if item not in items_to_remove])
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def intersection_update(self, other):
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"""
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Update this OrderedSet to keep only items in another set, preserving
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their order in this set.
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Example:
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>>> this = OrderedSet([1, 4, 3, 5, 7])
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>>> other = OrderedSet([9, 7, 1, 3, 2])
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>>> this.intersection_update(other)
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>>> print(this)
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OrderedSet([1, 3, 7])
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"""
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other = set(other)
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self._update_items([item for item in self.items if item in other])
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def symmetric_difference_update(self, other):
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"""
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Update this OrderedSet to remove items from another set, then
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add items from the other set that were not present in this set.
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Example:
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>>> this = OrderedSet([1, 4, 3, 5, 7])
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>>> other = OrderedSet([9, 7, 1, 3, 2])
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>>> this.symmetric_difference_update(other)
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>>> print(this)
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OrderedSet([4, 5, 9, 2])
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"""
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items_to_add = [item for item in other if item not in self]
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items_to_remove = set(other)
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self._update_items(
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[item for item in self.items if item not in items_to_remove] + items_to_add
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)
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