1257 lines
46 KiB
Python
1257 lines
46 KiB
Python
'''This module implements specialized container datatypes providing
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alternatives to Python's general purpose built-in containers, dict,
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list, set, and tuple.
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* namedtuple factory function for creating tuple subclasses with named fields
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* deque list-like container with fast appends and pops on either end
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* ChainMap dict-like class for creating a single view of multiple mappings
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* Counter dict subclass for counting hashable objects
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* OrderedDict dict subclass that remembers the order entries were added
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* defaultdict dict subclass that calls a factory function to supply missing values
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* UserDict wrapper around dictionary objects for easier dict subclassing
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* UserList wrapper around list objects for easier list subclassing
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* UserString wrapper around string objects for easier string subclassing
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'''
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__all__ = ['deque', 'defaultdict', 'namedtuple', 'UserDict', 'UserList',
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'UserString', 'Counter', 'OrderedDict', 'ChainMap']
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import _collections_abc
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from operator import itemgetter as _itemgetter, eq as _eq
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from keyword import iskeyword as _iskeyword
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import sys as _sys
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import heapq as _heapq
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from _weakref import proxy as _proxy
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from itertools import repeat as _repeat, chain as _chain, starmap as _starmap
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from reprlib import recursive_repr as _recursive_repr
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try:
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from _collections import deque
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except ImportError:
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pass
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else:
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_collections_abc.MutableSequence.register(deque)
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try:
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from _collections import defaultdict
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except ImportError:
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pass
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def __getattr__(name):
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# For backwards compatibility, continue to make the collections ABCs
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# through Python 3.6 available through the collections module.
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# Note, no new collections ABCs were added in Python 3.7
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if name in _collections_abc.__all__:
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obj = getattr(_collections_abc, name)
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import warnings
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warnings.warn("Using or importing the ABCs from 'collections' instead "
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"of from 'collections.abc' is deprecated since Python 3.3, "
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"and in 3.9 it will stop working",
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DeprecationWarning, stacklevel=2)
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globals()[name] = obj
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return obj
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raise AttributeError(f'module {__name__!r} has no attribute {name!r}')
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################################################################################
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### OrderedDict
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################################################################################
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class _OrderedDictKeysView(_collections_abc.KeysView):
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def __reversed__(self):
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yield from reversed(self._mapping)
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class _OrderedDictItemsView(_collections_abc.ItemsView):
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def __reversed__(self):
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for key in reversed(self._mapping):
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yield (key, self._mapping[key])
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class _OrderedDictValuesView(_collections_abc.ValuesView):
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def __reversed__(self):
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for key in reversed(self._mapping):
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yield self._mapping[key]
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class _Link(object):
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__slots__ = 'prev', 'next', 'key', '__weakref__'
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class OrderedDict(dict):
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'Dictionary that remembers insertion order'
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# An inherited dict maps keys to values.
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# The inherited dict provides __getitem__, __len__, __contains__, and get.
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# The remaining methods are order-aware.
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# Big-O running times for all methods are the same as regular dictionaries.
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# The internal self.__map dict maps keys to links in a doubly linked list.
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# The circular doubly linked list starts and ends with a sentinel element.
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# The sentinel element never gets deleted (this simplifies the algorithm).
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# The sentinel is in self.__hardroot with a weakref proxy in self.__root.
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# The prev links are weakref proxies (to prevent circular references).
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# Individual links are kept alive by the hard reference in self.__map.
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# Those hard references disappear when a key is deleted from an OrderedDict.
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def __init__(self, other=(), /, **kwds):
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'''Initialize an ordered dictionary. The signature is the same as
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regular dictionaries. Keyword argument order is preserved.
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'''
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try:
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self.__root
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except AttributeError:
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self.__hardroot = _Link()
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self.__root = root = _proxy(self.__hardroot)
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root.prev = root.next = root
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self.__map = {}
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self.__update(other, **kwds)
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def __setitem__(self, key, value,
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dict_setitem=dict.__setitem__, proxy=_proxy, Link=_Link):
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'od.__setitem__(i, y) <==> od[i]=y'
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# Setting a new item creates a new link at the end of the linked list,
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# and the inherited dictionary is updated with the new key/value pair.
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if key not in self:
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self.__map[key] = link = Link()
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root = self.__root
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last = root.prev
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link.prev, link.next, link.key = last, root, key
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last.next = link
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root.prev = proxy(link)
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dict_setitem(self, key, value)
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def __delitem__(self, key, dict_delitem=dict.__delitem__):
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'od.__delitem__(y) <==> del od[y]'
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# Deleting an existing item uses self.__map to find the link which gets
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# removed by updating the links in the predecessor and successor nodes.
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dict_delitem(self, key)
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link = self.__map.pop(key)
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link_prev = link.prev
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link_next = link.next
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link_prev.next = link_next
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link_next.prev = link_prev
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link.prev = None
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link.next = None
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def __iter__(self):
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'od.__iter__() <==> iter(od)'
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# Traverse the linked list in order.
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root = self.__root
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curr = root.next
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while curr is not root:
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yield curr.key
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curr = curr.next
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def __reversed__(self):
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'od.__reversed__() <==> reversed(od)'
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# Traverse the linked list in reverse order.
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root = self.__root
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curr = root.prev
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while curr is not root:
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yield curr.key
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curr = curr.prev
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def clear(self):
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'od.clear() -> None. Remove all items from od.'
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root = self.__root
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root.prev = root.next = root
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self.__map.clear()
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dict.clear(self)
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def popitem(self, last=True):
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'''Remove and return a (key, value) pair from the dictionary.
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Pairs are returned in LIFO order if last is true or FIFO order if false.
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'''
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if not self:
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raise KeyError('dictionary is empty')
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root = self.__root
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if last:
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link = root.prev
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link_prev = link.prev
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link_prev.next = root
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root.prev = link_prev
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else:
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link = root.next
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link_next = link.next
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root.next = link_next
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link_next.prev = root
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key = link.key
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del self.__map[key]
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value = dict.pop(self, key)
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return key, value
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def move_to_end(self, key, last=True):
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'''Move an existing element to the end (or beginning if last is false).
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Raise KeyError if the element does not exist.
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'''
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link = self.__map[key]
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link_prev = link.prev
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link_next = link.next
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soft_link = link_next.prev
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link_prev.next = link_next
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link_next.prev = link_prev
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root = self.__root
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if last:
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last = root.prev
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link.prev = last
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link.next = root
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root.prev = soft_link
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last.next = link
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else:
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first = root.next
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link.prev = root
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link.next = first
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first.prev = soft_link
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root.next = link
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def __sizeof__(self):
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sizeof = _sys.getsizeof
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n = len(self) + 1 # number of links including root
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size = sizeof(self.__dict__) # instance dictionary
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size += sizeof(self.__map) * 2 # internal dict and inherited dict
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size += sizeof(self.__hardroot) * n # link objects
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size += sizeof(self.__root) * n # proxy objects
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return size
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update = __update = _collections_abc.MutableMapping.update
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def keys(self):
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"D.keys() -> a set-like object providing a view on D's keys"
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return _OrderedDictKeysView(self)
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def items(self):
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"D.items() -> a set-like object providing a view on D's items"
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return _OrderedDictItemsView(self)
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def values(self):
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"D.values() -> an object providing a view on D's values"
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return _OrderedDictValuesView(self)
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__ne__ = _collections_abc.MutableMapping.__ne__
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__marker = object()
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def pop(self, key, default=__marker):
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'''od.pop(k[,d]) -> v, remove specified key and return the corresponding
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value. If key is not found, d is returned if given, otherwise KeyError
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is raised.
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'''
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if key in self:
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result = self[key]
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del self[key]
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return result
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if default is self.__marker:
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raise KeyError(key)
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return default
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def setdefault(self, key, default=None):
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'''Insert key with a value of default if key is not in the dictionary.
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Return the value for key if key is in the dictionary, else default.
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'''
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if key in self:
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return self[key]
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self[key] = default
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return default
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@_recursive_repr()
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def __repr__(self):
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'od.__repr__() <==> repr(od)'
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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.items()))
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def __reduce__(self):
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'Return state information for pickling'
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inst_dict = vars(self).copy()
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for k in vars(OrderedDict()):
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inst_dict.pop(k, None)
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return self.__class__, (), inst_dict or None, None, iter(self.items())
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def copy(self):
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'od.copy() -> a shallow copy of od'
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return self.__class__(self)
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@classmethod
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def fromkeys(cls, iterable, value=None):
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'''Create a new ordered dictionary with keys from iterable and values set to value.
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'''
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self = cls()
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for key in iterable:
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self[key] = value
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return self
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def __eq__(self, other):
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'''od.__eq__(y) <==> od==y. Comparison to another OD is order-sensitive
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while comparison to a regular mapping is order-insensitive.
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'''
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if isinstance(other, OrderedDict):
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return dict.__eq__(self, other) and all(map(_eq, self, other))
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return dict.__eq__(self, other)
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try:
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from _collections import OrderedDict
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except ImportError:
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# Leave the pure Python version in place.
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pass
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################################################################################
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### namedtuple
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################################################################################
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try:
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from _collections import _tuplegetter
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except ImportError:
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_tuplegetter = lambda index, doc: property(_itemgetter(index), doc=doc)
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def namedtuple(typename, field_names, *, rename=False, defaults=None, module=None):
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"""Returns a new subclass of tuple with named fields.
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>>> Point = namedtuple('Point', ['x', 'y'])
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>>> Point.__doc__ # docstring for the new class
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'Point(x, y)'
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>>> p = Point(11, y=22) # instantiate with positional args or keywords
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>>> p[0] + p[1] # indexable like a plain tuple
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33
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>>> x, y = p # unpack like a regular tuple
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>>> x, y
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(11, 22)
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>>> p.x + p.y # fields also accessible by name
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33
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>>> d = p._asdict() # convert to a dictionary
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>>> d['x']
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11
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>>> Point(**d) # convert from a dictionary
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Point(x=11, y=22)
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>>> p._replace(x=100) # _replace() is like str.replace() but targets named fields
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Point(x=100, y=22)
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"""
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# Validate the field names. At the user's option, either generate an error
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# message or automatically replace the field name with a valid name.
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if isinstance(field_names, str):
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field_names = field_names.replace(',', ' ').split()
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field_names = list(map(str, field_names))
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typename = _sys.intern(str(typename))
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if rename:
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seen = set()
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for index, name in enumerate(field_names):
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if (not name.isidentifier()
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or _iskeyword(name)
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or name.startswith('_')
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or name in seen):
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field_names[index] = f'_{index}'
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seen.add(name)
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for name in [typename] + field_names:
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if type(name) is not str:
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raise TypeError('Type names and field names must be strings')
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if not name.isidentifier():
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raise ValueError('Type names and field names must be valid '
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f'identifiers: {name!r}')
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if _iskeyword(name):
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raise ValueError('Type names and field names cannot be a '
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f'keyword: {name!r}')
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seen = set()
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for name in field_names:
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if name.startswith('_') and not rename:
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raise ValueError('Field names cannot start with an underscore: '
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f'{name!r}')
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if name in seen:
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raise ValueError(f'Encountered duplicate field name: {name!r}')
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seen.add(name)
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field_defaults = {}
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if defaults is not None:
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defaults = tuple(defaults)
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if len(defaults) > len(field_names):
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raise TypeError('Got more default values than field names')
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field_defaults = dict(reversed(list(zip(reversed(field_names),
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reversed(defaults)))))
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# Variables used in the methods and docstrings
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field_names = tuple(map(_sys.intern, field_names))
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num_fields = len(field_names)
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arg_list = repr(field_names).replace("'", "")[1:-1]
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repr_fmt = '(' + ', '.join(f'{name}=%r' for name in field_names) + ')'
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tuple_new = tuple.__new__
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_dict, _tuple, _len, _map, _zip = dict, tuple, len, map, zip
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# Create all the named tuple methods to be added to the class namespace
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s = f'def __new__(_cls, {arg_list}): return _tuple_new(_cls, ({arg_list}))'
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namespace = {'_tuple_new': tuple_new, '__name__': f'namedtuple_{typename}'}
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# Note: exec() has the side-effect of interning the field names
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exec(s, namespace)
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__new__ = namespace['__new__']
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__new__.__doc__ = f'Create new instance of {typename}({arg_list})'
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if defaults is not None:
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__new__.__defaults__ = defaults
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@classmethod
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def _make(cls, iterable):
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result = tuple_new(cls, iterable)
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if _len(result) != num_fields:
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raise TypeError(f'Expected {num_fields} arguments, got {len(result)}')
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return result
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_make.__func__.__doc__ = (f'Make a new {typename} object from a sequence '
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'or iterable')
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def _replace(self, /, **kwds):
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result = self._make(_map(kwds.pop, field_names, self))
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if kwds:
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raise ValueError(f'Got unexpected field names: {list(kwds)!r}')
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return result
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_replace.__doc__ = (f'Return a new {typename} object replacing specified '
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'fields with new values')
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def __repr__(self):
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'Return a nicely formatted representation string'
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return self.__class__.__name__ + repr_fmt % self
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def _asdict(self):
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'Return a new dict which maps field names to their values.'
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return _dict(_zip(self._fields, self))
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|
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def __getnewargs__(self):
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'Return self as a plain tuple. Used by copy and pickle.'
|
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return _tuple(self)
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|
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# Modify function metadata to help with introspection and debugging
|
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for method in (__new__, _make.__func__, _replace,
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__repr__, _asdict, __getnewargs__):
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method.__qualname__ = f'{typename}.{method.__name__}'
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|
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# Build-up the class namespace dictionary
|
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# and use type() to build the result class
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class_namespace = {
|
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'__doc__': f'{typename}({arg_list})',
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'__slots__': (),
|
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'_fields': field_names,
|
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'_field_defaults': field_defaults,
|
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# alternate spelling for backward compatibility
|
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'_fields_defaults': field_defaults,
|
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'__new__': __new__,
|
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'_make': _make,
|
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'_replace': _replace,
|
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'__repr__': __repr__,
|
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'_asdict': _asdict,
|
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'__getnewargs__': __getnewargs__,
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}
|
|
for index, name in enumerate(field_names):
|
|
doc = _sys.intern(f'Alias for field number {index}')
|
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class_namespace[name] = _tuplegetter(index, doc)
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|
|
|
result = type(typename, (tuple,), class_namespace)
|
|
|
|
# For pickling to work, the __module__ variable needs to be set to the frame
|
|
# where the named tuple is created. Bypass this step in environments where
|
|
# sys._getframe is not defined (Jython for example) or sys._getframe is not
|
|
# defined for arguments greater than 0 (IronPython), or where the user has
|
|
# specified a particular module.
|
|
if module is None:
|
|
try:
|
|
module = _sys._getframe(1).f_globals.get('__name__', '__main__')
|
|
except (AttributeError, ValueError):
|
|
pass
|
|
if module is not None:
|
|
result.__module__ = module
|
|
|
|
return result
|
|
|
|
|
|
########################################################################
|
|
### Counter
|
|
########################################################################
|
|
|
|
def _count_elements(mapping, iterable):
|
|
'Tally elements from the iterable.'
|
|
mapping_get = mapping.get
|
|
for elem in iterable:
|
|
mapping[elem] = mapping_get(elem, 0) + 1
|
|
|
|
try: # Load C helper function if available
|
|
from _collections import _count_elements
|
|
except ImportError:
|
|
pass
|
|
|
|
class Counter(dict):
|
|
'''Dict subclass for counting hashable items. Sometimes called a bag
|
|
or multiset. Elements are stored as dictionary keys and their counts
|
|
are stored as dictionary values.
|
|
|
|
>>> c = Counter('abcdeabcdabcaba') # count elements from a string
|
|
|
|
>>> c.most_common(3) # three most common elements
|
|
[('a', 5), ('b', 4), ('c', 3)]
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|
>>> sorted(c) # list all unique elements
|
|
['a', 'b', 'c', 'd', 'e']
|
|
>>> ''.join(sorted(c.elements())) # list elements with repetitions
|
|
'aaaaabbbbcccdde'
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|
>>> sum(c.values()) # total of all counts
|
|
15
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|
|
|
>>> c['a'] # count of letter 'a'
|
|
5
|
|
>>> for elem in 'shazam': # update counts from an iterable
|
|
... c[elem] += 1 # by adding 1 to each element's count
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|
>>> c['a'] # now there are seven 'a'
|
|
7
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|
>>> del c['b'] # remove all 'b'
|
|
>>> c['b'] # now there are zero 'b'
|
|
0
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|
|
|
>>> d = Counter('simsalabim') # make another counter
|
|
>>> c.update(d) # add in the second counter
|
|
>>> c['a'] # now there are nine 'a'
|
|
9
|
|
|
|
>>> c.clear() # empty the counter
|
|
>>> c
|
|
Counter()
|
|
|
|
Note: If a count is set to zero or reduced to zero, it will remain
|
|
in the counter until the entry is deleted or the counter is cleared:
|
|
|
|
>>> c = Counter('aaabbc')
|
|
>>> c['b'] -= 2 # reduce the count of 'b' by two
|
|
>>> c.most_common() # 'b' is still in, but its count is zero
|
|
[('a', 3), ('c', 1), ('b', 0)]
|
|
|
|
'''
|
|
# References:
|
|
# http://en.wikipedia.org/wiki/Multiset
|
|
# http://www.gnu.org/software/smalltalk/manual-base/html_node/Bag.html
|
|
# http://www.demo2s.com/Tutorial/Cpp/0380__set-multiset/Catalog0380__set-multiset.htm
|
|
# http://code.activestate.com/recipes/259174/
|
|
# Knuth, TAOCP Vol. II section 4.6.3
|
|
|
|
def __init__(self, iterable=None, /, **kwds):
|
|
'''Create a new, empty Counter object. And if given, count elements
|
|
from an input iterable. Or, initialize the count from another mapping
|
|
of elements to their counts.
|
|
|
|
>>> c = Counter() # a new, empty counter
|
|
>>> c = Counter('gallahad') # a new counter from an iterable
|
|
>>> c = Counter({'a': 4, 'b': 2}) # a new counter from a mapping
|
|
>>> c = Counter(a=4, b=2) # a new counter from keyword args
|
|
|
|
'''
|
|
super(Counter, self).__init__()
|
|
self.update(iterable, **kwds)
|
|
|
|
def __missing__(self, key):
|
|
'The count of elements not in the Counter is zero.'
|
|
# Needed so that self[missing_item] does not raise KeyError
|
|
return 0
|
|
|
|
def most_common(self, n=None):
|
|
'''List the n most common elements and their counts from the most
|
|
common to the least. If n is None, then list all element counts.
|
|
|
|
>>> Counter('abracadabra').most_common(3)
|
|
[('a', 5), ('b', 2), ('r', 2)]
|
|
|
|
'''
|
|
# Emulate Bag.sortedByCount from Smalltalk
|
|
if n is None:
|
|
return sorted(self.items(), key=_itemgetter(1), reverse=True)
|
|
return _heapq.nlargest(n, self.items(), key=_itemgetter(1))
|
|
|
|
def elements(self):
|
|
'''Iterator over elements repeating each as many times as its count.
|
|
|
|
>>> c = Counter('ABCABC')
|
|
>>> sorted(c.elements())
|
|
['A', 'A', 'B', 'B', 'C', 'C']
|
|
|
|
# Knuth's example for prime factors of 1836: 2**2 * 3**3 * 17**1
|
|
>>> prime_factors = Counter({2: 2, 3: 3, 17: 1})
|
|
>>> product = 1
|
|
>>> for factor in prime_factors.elements(): # loop over factors
|
|
... product *= factor # and multiply them
|
|
>>> product
|
|
1836
|
|
|
|
Note, if an element's count has been set to zero or is a negative
|
|
number, elements() will ignore it.
|
|
|
|
'''
|
|
# Emulate Bag.do from Smalltalk and Multiset.begin from C++.
|
|
return _chain.from_iterable(_starmap(_repeat, self.items()))
|
|
|
|
# Override dict methods where necessary
|
|
|
|
@classmethod
|
|
def fromkeys(cls, iterable, v=None):
|
|
# There is no equivalent method for counters because the semantics
|
|
# would be ambiguous in cases such as Counter.fromkeys('aaabbc', v=2).
|
|
# Initializing counters to zero values isn't necessary because zero
|
|
# is already the default value for counter lookups. Initializing
|
|
# to one is easily accomplished with Counter(set(iterable)). For
|
|
# more exotic cases, create a dictionary first using a dictionary
|
|
# comprehension or dict.fromkeys().
|
|
raise NotImplementedError(
|
|
'Counter.fromkeys() is undefined. Use Counter(iterable) instead.')
|
|
|
|
def update(self, iterable=None, /, **kwds):
|
|
'''Like dict.update() but add counts instead of replacing them.
|
|
|
|
Source can be an iterable, a dictionary, or another Counter instance.
|
|
|
|
>>> c = Counter('which')
|
|
>>> c.update('witch') # add elements from another iterable
|
|
>>> d = Counter('watch')
|
|
>>> c.update(d) # add elements from another counter
|
|
>>> c['h'] # four 'h' in which, witch, and watch
|
|
4
|
|
|
|
'''
|
|
# The regular dict.update() operation makes no sense here because the
|
|
# replace behavior results in the some of original untouched counts
|
|
# being mixed-in with all of the other counts for a mismash that
|
|
# doesn't have a straight-forward interpretation in most counting
|
|
# contexts. Instead, we implement straight-addition. Both the inputs
|
|
# and outputs are allowed to contain zero and negative counts.
|
|
|
|
if iterable is not None:
|
|
if isinstance(iterable, _collections_abc.Mapping):
|
|
if self:
|
|
self_get = self.get
|
|
for elem, count in iterable.items():
|
|
self[elem] = count + self_get(elem, 0)
|
|
else:
|
|
super(Counter, self).update(iterable) # fast path when counter is empty
|
|
else:
|
|
_count_elements(self, iterable)
|
|
if kwds:
|
|
self.update(kwds)
|
|
|
|
def subtract(self, iterable=None, /, **kwds):
|
|
'''Like dict.update() but subtracts counts instead of replacing them.
|
|
Counts can be reduced below zero. Both the inputs and outputs are
|
|
allowed to contain zero and negative counts.
|
|
|
|
Source can be an iterable, a dictionary, or another Counter instance.
|
|
|
|
>>> c = Counter('which')
|
|
>>> c.subtract('witch') # subtract elements from another iterable
|
|
>>> c.subtract(Counter('watch')) # subtract elements from another counter
|
|
>>> c['h'] # 2 in which, minus 1 in witch, minus 1 in watch
|
|
0
|
|
>>> c['w'] # 1 in which, minus 1 in witch, minus 1 in watch
|
|
-1
|
|
|
|
'''
|
|
if iterable is not None:
|
|
self_get = self.get
|
|
if isinstance(iterable, _collections_abc.Mapping):
|
|
for elem, count in iterable.items():
|
|
self[elem] = self_get(elem, 0) - count
|
|
else:
|
|
for elem in iterable:
|
|
self[elem] = self_get(elem, 0) - 1
|
|
if kwds:
|
|
self.subtract(kwds)
|
|
|
|
def copy(self):
|
|
'Return a shallow copy.'
|
|
return self.__class__(self)
|
|
|
|
def __reduce__(self):
|
|
return self.__class__, (dict(self),)
|
|
|
|
def __delitem__(self, elem):
|
|
'Like dict.__delitem__() but does not raise KeyError for missing values.'
|
|
if elem in self:
|
|
super().__delitem__(elem)
|
|
|
|
def __repr__(self):
|
|
if not self:
|
|
return '%s()' % self.__class__.__name__
|
|
try:
|
|
items = ', '.join(map('%r: %r'.__mod__, self.most_common()))
|
|
return '%s({%s})' % (self.__class__.__name__, items)
|
|
except TypeError:
|
|
# handle case where values are not orderable
|
|
return '{0}({1!r})'.format(self.__class__.__name__, dict(self))
|
|
|
|
# Multiset-style mathematical operations discussed in:
|
|
# Knuth TAOCP Volume II section 4.6.3 exercise 19
|
|
# and at http://en.wikipedia.org/wiki/Multiset
|
|
#
|
|
# Outputs guaranteed to only include positive counts.
|
|
#
|
|
# To strip negative and zero counts, add-in an empty counter:
|
|
# c += Counter()
|
|
|
|
def __add__(self, other):
|
|
'''Add counts from two counters.
|
|
|
|
>>> Counter('abbb') + Counter('bcc')
|
|
Counter({'b': 4, 'c': 2, 'a': 1})
|
|
|
|
'''
|
|
if not isinstance(other, Counter):
|
|
return NotImplemented
|
|
result = Counter()
|
|
for elem, count in self.items():
|
|
newcount = count + other[elem]
|
|
if newcount > 0:
|
|
result[elem] = newcount
|
|
for elem, count in other.items():
|
|
if elem not in self and count > 0:
|
|
result[elem] = count
|
|
return result
|
|
|
|
def __sub__(self, other):
|
|
''' Subtract count, but keep only results with positive counts.
|
|
|
|
>>> Counter('abbbc') - Counter('bccd')
|
|
Counter({'b': 2, 'a': 1})
|
|
|
|
'''
|
|
if not isinstance(other, Counter):
|
|
return NotImplemented
|
|
result = Counter()
|
|
for elem, count in self.items():
|
|
newcount = count - other[elem]
|
|
if newcount > 0:
|
|
result[elem] = newcount
|
|
for elem, count in other.items():
|
|
if elem not in self and count < 0:
|
|
result[elem] = 0 - count
|
|
return result
|
|
|
|
def __or__(self, other):
|
|
'''Union is the maximum of value in either of the input counters.
|
|
|
|
>>> Counter('abbb') | Counter('bcc')
|
|
Counter({'b': 3, 'c': 2, 'a': 1})
|
|
|
|
'''
|
|
if not isinstance(other, Counter):
|
|
return NotImplemented
|
|
result = Counter()
|
|
for elem, count in self.items():
|
|
other_count = other[elem]
|
|
newcount = other_count if count < other_count else count
|
|
if newcount > 0:
|
|
result[elem] = newcount
|
|
for elem, count in other.items():
|
|
if elem not in self and count > 0:
|
|
result[elem] = count
|
|
return result
|
|
|
|
def __and__(self, other):
|
|
''' Intersection is the minimum of corresponding counts.
|
|
|
|
>>> Counter('abbb') & Counter('bcc')
|
|
Counter({'b': 1})
|
|
|
|
'''
|
|
if not isinstance(other, Counter):
|
|
return NotImplemented
|
|
result = Counter()
|
|
for elem, count in self.items():
|
|
other_count = other[elem]
|
|
newcount = count if count < other_count else other_count
|
|
if newcount > 0:
|
|
result[elem] = newcount
|
|
return result
|
|
|
|
def __pos__(self):
|
|
'Adds an empty counter, effectively stripping negative and zero counts'
|
|
result = Counter()
|
|
for elem, count in self.items():
|
|
if count > 0:
|
|
result[elem] = count
|
|
return result
|
|
|
|
def __neg__(self):
|
|
'''Subtracts from an empty counter. Strips positive and zero counts,
|
|
and flips the sign on negative counts.
|
|
|
|
'''
|
|
result = Counter()
|
|
for elem, count in self.items():
|
|
if count < 0:
|
|
result[elem] = 0 - count
|
|
return result
|
|
|
|
def _keep_positive(self):
|
|
'''Internal method to strip elements with a negative or zero count'''
|
|
nonpositive = [elem for elem, count in self.items() if not count > 0]
|
|
for elem in nonpositive:
|
|
del self[elem]
|
|
return self
|
|
|
|
def __iadd__(self, other):
|
|
'''Inplace add from another counter, keeping only positive counts.
|
|
|
|
>>> c = Counter('abbb')
|
|
>>> c += Counter('bcc')
|
|
>>> c
|
|
Counter({'b': 4, 'c': 2, 'a': 1})
|
|
|
|
'''
|
|
for elem, count in other.items():
|
|
self[elem] += count
|
|
return self._keep_positive()
|
|
|
|
def __isub__(self, other):
|
|
'''Inplace subtract counter, but keep only results with positive counts.
|
|
|
|
>>> c = Counter('abbbc')
|
|
>>> c -= Counter('bccd')
|
|
>>> c
|
|
Counter({'b': 2, 'a': 1})
|
|
|
|
'''
|
|
for elem, count in other.items():
|
|
self[elem] -= count
|
|
return self._keep_positive()
|
|
|
|
def __ior__(self, other):
|
|
'''Inplace union is the maximum of value from either counter.
|
|
|
|
>>> c = Counter('abbb')
|
|
>>> c |= Counter('bcc')
|
|
>>> c
|
|
Counter({'b': 3, 'c': 2, 'a': 1})
|
|
|
|
'''
|
|
for elem, other_count in other.items():
|
|
count = self[elem]
|
|
if other_count > count:
|
|
self[elem] = other_count
|
|
return self._keep_positive()
|
|
|
|
def __iand__(self, other):
|
|
'''Inplace intersection is the minimum of corresponding counts.
|
|
|
|
>>> c = Counter('abbb')
|
|
>>> c &= Counter('bcc')
|
|
>>> c
|
|
Counter({'b': 1})
|
|
|
|
'''
|
|
for elem, count in self.items():
|
|
other_count = other[elem]
|
|
if other_count < count:
|
|
self[elem] = other_count
|
|
return self._keep_positive()
|
|
|
|
|
|
########################################################################
|
|
### ChainMap
|
|
########################################################################
|
|
|
|
class ChainMap(_collections_abc.MutableMapping):
|
|
''' A ChainMap groups multiple dicts (or other mappings) together
|
|
to create a single, updateable view.
|
|
|
|
The underlying mappings are stored in a list. That list is public and can
|
|
be accessed or updated using the *maps* attribute. There is no other
|
|
state.
|
|
|
|
Lookups search the underlying mappings successively until a key is found.
|
|
In contrast, writes, updates, and deletions only operate on the first
|
|
mapping.
|
|
|
|
'''
|
|
|
|
def __init__(self, *maps):
|
|
'''Initialize a ChainMap by setting *maps* to the given mappings.
|
|
If no mappings are provided, a single empty dictionary is used.
|
|
|
|
'''
|
|
self.maps = list(maps) or [{}] # always at least one map
|
|
|
|
def __missing__(self, key):
|
|
raise KeyError(key)
|
|
|
|
def __getitem__(self, key):
|
|
for mapping in self.maps:
|
|
try:
|
|
return mapping[key] # can't use 'key in mapping' with defaultdict
|
|
except KeyError:
|
|
pass
|
|
return self.__missing__(key) # support subclasses that define __missing__
|
|
|
|
def get(self, key, default=None):
|
|
return self[key] if key in self else default
|
|
|
|
def __len__(self):
|
|
return len(set().union(*self.maps)) # reuses stored hash values if possible
|
|
|
|
def __iter__(self):
|
|
d = {}
|
|
for mapping in reversed(self.maps):
|
|
d.update(mapping) # reuses stored hash values if possible
|
|
return iter(d)
|
|
|
|
def __contains__(self, key):
|
|
return any(key in m for m in self.maps)
|
|
|
|
def __bool__(self):
|
|
return any(self.maps)
|
|
|
|
@_recursive_repr()
|
|
def __repr__(self):
|
|
return f'{self.__class__.__name__}({", ".join(map(repr, self.maps))})'
|
|
|
|
@classmethod
|
|
def fromkeys(cls, iterable, *args):
|
|
'Create a ChainMap with a single dict created from the iterable.'
|
|
return cls(dict.fromkeys(iterable, *args))
|
|
|
|
def copy(self):
|
|
'New ChainMap or subclass with a new copy of maps[0] and refs to maps[1:]'
|
|
return self.__class__(self.maps[0].copy(), *self.maps[1:])
|
|
|
|
__copy__ = copy
|
|
|
|
def new_child(self, m=None): # like Django's Context.push()
|
|
'''New ChainMap with a new map followed by all previous maps.
|
|
If no map is provided, an empty dict is used.
|
|
'''
|
|
if m is None:
|
|
m = {}
|
|
return self.__class__(m, *self.maps)
|
|
|
|
@property
|
|
def parents(self): # like Django's Context.pop()
|
|
'New ChainMap from maps[1:].'
|
|
return self.__class__(*self.maps[1:])
|
|
|
|
def __setitem__(self, key, value):
|
|
self.maps[0][key] = value
|
|
|
|
def __delitem__(self, key):
|
|
try:
|
|
del self.maps[0][key]
|
|
except KeyError:
|
|
raise KeyError('Key not found in the first mapping: {!r}'.format(key))
|
|
|
|
def popitem(self):
|
|
'Remove and return an item pair from maps[0]. Raise KeyError is maps[0] is empty.'
|
|
try:
|
|
return self.maps[0].popitem()
|
|
except KeyError:
|
|
raise KeyError('No keys found in the first mapping.')
|
|
|
|
def pop(self, key, *args):
|
|
'Remove *key* from maps[0] and return its value. Raise KeyError if *key* not in maps[0].'
|
|
try:
|
|
return self.maps[0].pop(key, *args)
|
|
except KeyError:
|
|
raise KeyError('Key not found in the first mapping: {!r}'.format(key))
|
|
|
|
def clear(self):
|
|
'Clear maps[0], leaving maps[1:] intact.'
|
|
self.maps[0].clear()
|
|
|
|
|
|
################################################################################
|
|
### UserDict
|
|
################################################################################
|
|
|
|
class UserDict(_collections_abc.MutableMapping):
|
|
|
|
# Start by filling-out the abstract methods
|
|
def __init__(self, dict=None, /, **kwargs):
|
|
self.data = {}
|
|
if dict is not None:
|
|
self.update(dict)
|
|
if kwargs:
|
|
self.update(kwargs)
|
|
|
|
def __len__(self): return len(self.data)
|
|
def __getitem__(self, key):
|
|
if key in self.data:
|
|
return self.data[key]
|
|
if hasattr(self.__class__, "__missing__"):
|
|
return self.__class__.__missing__(self, key)
|
|
raise KeyError(key)
|
|
def __setitem__(self, key, item): self.data[key] = item
|
|
def __delitem__(self, key): del self.data[key]
|
|
def __iter__(self):
|
|
return iter(self.data)
|
|
|
|
# Modify __contains__ to work correctly when __missing__ is present
|
|
def __contains__(self, key):
|
|
return key in self.data
|
|
|
|
# Now, add the methods in dicts but not in MutableMapping
|
|
def __repr__(self): return repr(self.data)
|
|
def __copy__(self):
|
|
inst = self.__class__.__new__(self.__class__)
|
|
inst.__dict__.update(self.__dict__)
|
|
# Create a copy and avoid triggering descriptors
|
|
inst.__dict__["data"] = self.__dict__["data"].copy()
|
|
return inst
|
|
|
|
def copy(self):
|
|
if self.__class__ is UserDict:
|
|
return UserDict(self.data.copy())
|
|
import copy
|
|
data = self.data
|
|
try:
|
|
self.data = {}
|
|
c = copy.copy(self)
|
|
finally:
|
|
self.data = data
|
|
c.update(self)
|
|
return c
|
|
|
|
@classmethod
|
|
def fromkeys(cls, iterable, value=None):
|
|
d = cls()
|
|
for key in iterable:
|
|
d[key] = value
|
|
return d
|
|
|
|
|
|
|
|
################################################################################
|
|
### UserList
|
|
################################################################################
|
|
|
|
class UserList(_collections_abc.MutableSequence):
|
|
"""A more or less complete user-defined wrapper around list objects."""
|
|
def __init__(self, initlist=None):
|
|
self.data = []
|
|
if initlist is not None:
|
|
# XXX should this accept an arbitrary sequence?
|
|
if type(initlist) == type(self.data):
|
|
self.data[:] = initlist
|
|
elif isinstance(initlist, UserList):
|
|
self.data[:] = initlist.data[:]
|
|
else:
|
|
self.data = list(initlist)
|
|
def __repr__(self): return repr(self.data)
|
|
def __lt__(self, other): return self.data < self.__cast(other)
|
|
def __le__(self, other): return self.data <= self.__cast(other)
|
|
def __eq__(self, other): return self.data == self.__cast(other)
|
|
def __gt__(self, other): return self.data > self.__cast(other)
|
|
def __ge__(self, other): return self.data >= self.__cast(other)
|
|
def __cast(self, other):
|
|
return other.data if isinstance(other, UserList) else other
|
|
def __contains__(self, item): return item in self.data
|
|
def __len__(self): return len(self.data)
|
|
def __getitem__(self, i):
|
|
if isinstance(i, slice):
|
|
return self.__class__(self.data[i])
|
|
else:
|
|
return self.data[i]
|
|
def __setitem__(self, i, item): self.data[i] = item
|
|
def __delitem__(self, i): del self.data[i]
|
|
def __add__(self, other):
|
|
if isinstance(other, UserList):
|
|
return self.__class__(self.data + other.data)
|
|
elif isinstance(other, type(self.data)):
|
|
return self.__class__(self.data + other)
|
|
return self.__class__(self.data + list(other))
|
|
def __radd__(self, other):
|
|
if isinstance(other, UserList):
|
|
return self.__class__(other.data + self.data)
|
|
elif isinstance(other, type(self.data)):
|
|
return self.__class__(other + self.data)
|
|
return self.__class__(list(other) + self.data)
|
|
def __iadd__(self, other):
|
|
if isinstance(other, UserList):
|
|
self.data += other.data
|
|
elif isinstance(other, type(self.data)):
|
|
self.data += other
|
|
else:
|
|
self.data += list(other)
|
|
return self
|
|
def __mul__(self, n):
|
|
return self.__class__(self.data*n)
|
|
__rmul__ = __mul__
|
|
def __imul__(self, n):
|
|
self.data *= n
|
|
return self
|
|
def __copy__(self):
|
|
inst = self.__class__.__new__(self.__class__)
|
|
inst.__dict__.update(self.__dict__)
|
|
# Create a copy and avoid triggering descriptors
|
|
inst.__dict__["data"] = self.__dict__["data"][:]
|
|
return inst
|
|
def append(self, item): self.data.append(item)
|
|
def insert(self, i, item): self.data.insert(i, item)
|
|
def pop(self, i=-1): return self.data.pop(i)
|
|
def remove(self, item): self.data.remove(item)
|
|
def clear(self): self.data.clear()
|
|
def copy(self): return self.__class__(self)
|
|
def count(self, item): return self.data.count(item)
|
|
def index(self, item, *args): return self.data.index(item, *args)
|
|
def reverse(self): self.data.reverse()
|
|
def sort(self, /, *args, **kwds): self.data.sort(*args, **kwds)
|
|
def extend(self, other):
|
|
if isinstance(other, UserList):
|
|
self.data.extend(other.data)
|
|
else:
|
|
self.data.extend(other)
|
|
|
|
|
|
|
|
################################################################################
|
|
### UserString
|
|
################################################################################
|
|
|
|
class UserString(_collections_abc.Sequence):
|
|
def __init__(self, seq):
|
|
if isinstance(seq, str):
|
|
self.data = seq
|
|
elif isinstance(seq, UserString):
|
|
self.data = seq.data[:]
|
|
else:
|
|
self.data = str(seq)
|
|
def __str__(self): return str(self.data)
|
|
def __repr__(self): return repr(self.data)
|
|
def __int__(self): return int(self.data)
|
|
def __float__(self): return float(self.data)
|
|
def __complex__(self): return complex(self.data)
|
|
def __hash__(self): return hash(self.data)
|
|
def __getnewargs__(self):
|
|
return (self.data[:],)
|
|
|
|
def __eq__(self, string):
|
|
if isinstance(string, UserString):
|
|
return self.data == string.data
|
|
return self.data == string
|
|
def __lt__(self, string):
|
|
if isinstance(string, UserString):
|
|
return self.data < string.data
|
|
return self.data < string
|
|
def __le__(self, string):
|
|
if isinstance(string, UserString):
|
|
return self.data <= string.data
|
|
return self.data <= string
|
|
def __gt__(self, string):
|
|
if isinstance(string, UserString):
|
|
return self.data > string.data
|
|
return self.data > string
|
|
def __ge__(self, string):
|
|
if isinstance(string, UserString):
|
|
return self.data >= string.data
|
|
return self.data >= string
|
|
|
|
def __contains__(self, char):
|
|
if isinstance(char, UserString):
|
|
char = char.data
|
|
return char in self.data
|
|
|
|
def __len__(self): return len(self.data)
|
|
def __getitem__(self, index): return self.__class__(self.data[index])
|
|
def __add__(self, other):
|
|
if isinstance(other, UserString):
|
|
return self.__class__(self.data + other.data)
|
|
elif isinstance(other, str):
|
|
return self.__class__(self.data + other)
|
|
return self.__class__(self.data + str(other))
|
|
def __radd__(self, other):
|
|
if isinstance(other, str):
|
|
return self.__class__(other + self.data)
|
|
return self.__class__(str(other) + self.data)
|
|
def __mul__(self, n):
|
|
return self.__class__(self.data*n)
|
|
__rmul__ = __mul__
|
|
def __mod__(self, args):
|
|
return self.__class__(self.data % args)
|
|
def __rmod__(self, template):
|
|
return self.__class__(str(template) % self)
|
|
# the following methods are defined in alphabetical order:
|
|
def capitalize(self): return self.__class__(self.data.capitalize())
|
|
def casefold(self):
|
|
return self.__class__(self.data.casefold())
|
|
def center(self, width, *args):
|
|
return self.__class__(self.data.center(width, *args))
|
|
def count(self, sub, start=0, end=_sys.maxsize):
|
|
if isinstance(sub, UserString):
|
|
sub = sub.data
|
|
return self.data.count(sub, start, end)
|
|
def encode(self, encoding='utf-8', errors='strict'):
|
|
encoding = 'utf-8' if encoding is None else encoding
|
|
errors = 'strict' if errors is None else errors
|
|
return self.data.encode(encoding, errors)
|
|
def endswith(self, suffix, start=0, end=_sys.maxsize):
|
|
return self.data.endswith(suffix, start, end)
|
|
def expandtabs(self, tabsize=8):
|
|
return self.__class__(self.data.expandtabs(tabsize))
|
|
def find(self, sub, start=0, end=_sys.maxsize):
|
|
if isinstance(sub, UserString):
|
|
sub = sub.data
|
|
return self.data.find(sub, start, end)
|
|
def format(self, /, *args, **kwds):
|
|
return self.data.format(*args, **kwds)
|
|
def format_map(self, mapping):
|
|
return self.data.format_map(mapping)
|
|
def index(self, sub, start=0, end=_sys.maxsize):
|
|
return self.data.index(sub, start, end)
|
|
def isalpha(self): return self.data.isalpha()
|
|
def isalnum(self): return self.data.isalnum()
|
|
def isascii(self): return self.data.isascii()
|
|
def isdecimal(self): return self.data.isdecimal()
|
|
def isdigit(self): return self.data.isdigit()
|
|
def isidentifier(self): return self.data.isidentifier()
|
|
def islower(self): return self.data.islower()
|
|
def isnumeric(self): return self.data.isnumeric()
|
|
def isprintable(self): return self.data.isprintable()
|
|
def isspace(self): return self.data.isspace()
|
|
def istitle(self): return self.data.istitle()
|
|
def isupper(self): return self.data.isupper()
|
|
def join(self, seq): return self.data.join(seq)
|
|
def ljust(self, width, *args):
|
|
return self.__class__(self.data.ljust(width, *args))
|
|
def lower(self): return self.__class__(self.data.lower())
|
|
def lstrip(self, chars=None): return self.__class__(self.data.lstrip(chars))
|
|
maketrans = str.maketrans
|
|
def partition(self, sep):
|
|
return self.data.partition(sep)
|
|
def replace(self, old, new, maxsplit=-1):
|
|
if isinstance(old, UserString):
|
|
old = old.data
|
|
if isinstance(new, UserString):
|
|
new = new.data
|
|
return self.__class__(self.data.replace(old, new, maxsplit))
|
|
def rfind(self, sub, start=0, end=_sys.maxsize):
|
|
if isinstance(sub, UserString):
|
|
sub = sub.data
|
|
return self.data.rfind(sub, start, end)
|
|
def rindex(self, sub, start=0, end=_sys.maxsize):
|
|
return self.data.rindex(sub, start, end)
|
|
def rjust(self, width, *args):
|
|
return self.__class__(self.data.rjust(width, *args))
|
|
def rpartition(self, sep):
|
|
return self.data.rpartition(sep)
|
|
def rstrip(self, chars=None):
|
|
return self.__class__(self.data.rstrip(chars))
|
|
def split(self, sep=None, maxsplit=-1):
|
|
return self.data.split(sep, maxsplit)
|
|
def rsplit(self, sep=None, maxsplit=-1):
|
|
return self.data.rsplit(sep, maxsplit)
|
|
def splitlines(self, keepends=False): return self.data.splitlines(keepends)
|
|
def startswith(self, prefix, start=0, end=_sys.maxsize):
|
|
return self.data.startswith(prefix, start, end)
|
|
def strip(self, chars=None): return self.__class__(self.data.strip(chars))
|
|
def swapcase(self): return self.__class__(self.data.swapcase())
|
|
def title(self): return self.__class__(self.data.title())
|
|
def translate(self, *args):
|
|
return self.__class__(self.data.translate(*args))
|
|
def upper(self): return self.__class__(self.data.upper())
|
|
def zfill(self, width): return self.__class__(self.data.zfill(width))
|