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743 lines
27 KiB
743 lines
27 KiB
'''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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* 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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'''
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__all__ = ['Counter', 'deque', 'defaultdict', 'namedtuple', 'OrderedDict']
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# For bootstrapping reasons, the collection ABCs are defined in _abcoll.py.
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# They should however be considered an integral part of collections.py.
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from _abcoll import *
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import _abcoll
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__all__ += _abcoll.__all__
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from _collections import deque, defaultdict
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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 itertools import repeat as _repeat, chain as _chain, starmap as _starmap
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from itertools import imap as _imap
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try:
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from thread import get_ident as _get_ident
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except ImportError:
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from dummy_thread import get_ident as _get_ident
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################################################################################
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### OrderedDict
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################################################################################
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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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# Each link is stored as a list of length three: [PREV, NEXT, KEY].
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def __init__(*args, **kwds):
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'''Initialize an ordered dictionary. The signature is the same as
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regular dictionaries, but keyword arguments are not recommended because
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their insertion order is arbitrary.
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'''
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if not args:
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raise TypeError("descriptor '__init__' of 'OrderedDict' object "
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"needs an argument")
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self = args[0]
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args = args[1:]
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if len(args) > 1:
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raise TypeError('expected at most 1 arguments, got %d' % len(args))
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try:
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self.__root
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except AttributeError:
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self.__root = root = [] # sentinel node
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root[:] = [root, root, None]
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self.__map = {}
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self.__update(*args, **kwds)
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def __setitem__(self, key, value, dict_setitem=dict.__setitem__):
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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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root = self.__root
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last = root[0]
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last[1] = root[0] = self.__map[key] = [last, root, key]
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return 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_prev, link_next, _ = self.__map.pop(key)
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link_prev[1] = link_next # update link_prev[NEXT]
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link_next[0] = link_prev # update link_next[PREV]
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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[1] # start at the first node
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while curr is not root:
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yield curr[2] # yield the curr[KEY]
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curr = curr[1] # move to next node
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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[0] # start at the last node
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while curr is not root:
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yield curr[2] # yield the curr[KEY]
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curr = curr[0] # move to previous node
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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[:] = [root, root, None]
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self.__map.clear()
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dict.clear(self)
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# -- the following methods do not depend on the internal structure --
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def keys(self):
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'od.keys() -> list of keys in od'
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return list(self)
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def values(self):
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'od.values() -> list of values in od'
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return [self[key] for key in self]
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def items(self):
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'od.items() -> list of (key, value) pairs in od'
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return [(key, self[key]) for key in self]
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def iterkeys(self):
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'od.iterkeys() -> an iterator over the keys in od'
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return iter(self)
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def itervalues(self):
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'od.itervalues -> an iterator over the values in od'
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for k in self:
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yield self[k]
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def iteritems(self):
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'od.iteritems -> an iterator over the (key, value) pairs in od'
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for k in self:
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yield (k, self[k])
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update = MutableMapping.update
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__update = update # let subclasses override update without breaking __init__
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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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'od.setdefault(k[,d]) -> od.get(k,d), also set od[k]=d if k not in od'
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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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def popitem(self, last=True):
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'''od.popitem() -> (k, v), return and remove a (key, value) pair.
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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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key = next(reversed(self) if last else iter(self))
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value = self.pop(key)
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return key, value
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def __repr__(self, _repr_running={}):
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'od.__repr__() <==> repr(od)'
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call_key = id(self), _get_ident()
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if call_key in _repr_running:
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return '...'
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_repr_running[call_key] = 1
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try:
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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__, self.items())
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finally:
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del _repr_running[call_key]
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def __reduce__(self):
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'Return state information for pickling'
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items = [[k, self[k]] for k in self]
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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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if inst_dict:
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return (self.__class__, (items,), inst_dict)
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return self.__class__, (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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'''OD.fromkeys(S[, v]) -> New ordered dictionary with keys from S.
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If not specified, the value defaults to None.
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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(_imap(_eq, self, other))
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return dict.__eq__(self, other)
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def __ne__(self, other):
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'od.__ne__(y) <==> od!=y'
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return not self == other
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# -- the following methods support python 3.x style dictionary views --
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def viewkeys(self):
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"od.viewkeys() -> a set-like object providing a view on od's keys"
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return KeysView(self)
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def viewvalues(self):
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"od.viewvalues() -> an object providing a view on od's values"
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return ValuesView(self)
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def viewitems(self):
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"od.viewitems() -> a set-like object providing a view on od's items"
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return ItemsView(self)
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################################################################################
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### namedtuple
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################################################################################
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_class_template = '''\
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class {typename}(tuple):
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'{typename}({arg_list})'
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__slots__ = ()
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_fields = {field_names!r}
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def __new__(_cls, {arg_list}):
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'Create new instance of {typename}({arg_list})'
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return _tuple.__new__(_cls, ({arg_list}))
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@classmethod
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def _make(cls, iterable, new=tuple.__new__, len=len):
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'Make a new {typename} object from a sequence or iterable'
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result = new(cls, iterable)
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if len(result) != {num_fields:d}:
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raise TypeError('Expected {num_fields:d} arguments, got %d' % len(result))
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return result
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def __repr__(self):
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'Return a nicely formatted representation string'
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return '{typename}({repr_fmt})' % self
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def _asdict(self):
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'Return a new OrderedDict which maps field names to their values'
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return OrderedDict(zip(self._fields, self))
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def _replace(_self, **kwds):
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'Return a new {typename} object replacing specified fields with new values'
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result = _self._make(map(kwds.pop, {field_names!r}, _self))
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if kwds:
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raise ValueError('Got unexpected field names: %r' % kwds.keys())
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return result
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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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__dict__ = _property(_asdict)
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def __getstate__(self):
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'Exclude the OrderedDict from pickling'
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pass
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{field_defs}
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'''
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_repr_template = '{name}=%r'
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_field_template = '''\
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{name} = _property(_itemgetter({index:d}), doc='Alias for field number {index:d}')
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'''
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def namedtuple(typename, field_names, verbose=False, rename=False):
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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, basestring):
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field_names = field_names.replace(',', ' ').split()
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field_names = map(str, field_names)
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typename = 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 all(c.isalnum() or c=='_' for c in name)
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or _iskeyword(name)
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or not name
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or name[0].isdigit()
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or name.startswith('_')
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or name in seen):
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field_names[index] = '_%d' % 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) != str:
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raise TypeError('Type names and field names must be strings')
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if not all(c.isalnum() or c=='_' for c in name):
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raise ValueError('Type names and field names can only contain '
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'alphanumeric characters and underscores: %r' % name)
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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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'keyword: %r' % name)
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if name[0].isdigit():
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raise ValueError('Type names and field names cannot start with '
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'a number: %r' % name)
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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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'%r' % name)
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if name in seen:
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raise ValueError('Encountered duplicate field name: %r' % name)
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seen.add(name)
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# Fill-in the class template
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class_definition = _class_template.format(
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typename = typename,
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field_names = tuple(field_names),
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num_fields = len(field_names),
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arg_list = repr(tuple(field_names)).replace("'", "")[1:-1],
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repr_fmt = ', '.join(_repr_template.format(name=name)
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for name in field_names),
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field_defs = '\n'.join(_field_template.format(index=index, name=name)
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for index, name in enumerate(field_names))
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)
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if verbose:
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print class_definition
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# Execute the template string in a temporary namespace and support
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# tracing utilities by setting a value for frame.f_globals['__name__']
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namespace = dict(_itemgetter=_itemgetter, __name__='namedtuple_%s' % typename,
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OrderedDict=OrderedDict, _property=property, _tuple=tuple)
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try:
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exec class_definition in namespace
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except SyntaxError as e:
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raise SyntaxError(e.message + ':\n' + class_definition)
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result = namespace[typename]
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|
|
|
# For pickling to work, the __module__ variable needs to be set to the frame
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# where the named tuple is created. Bypass this step in environments where
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# sys._getframe is not defined (Jython for example) or sys._getframe is not
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|
# defined for arguments greater than 0 (IronPython).
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try:
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result.__module__ = _sys._getframe(1).f_globals.get('__name__', '__main__')
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except (AttributeError, ValueError):
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pass
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return result
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|
|
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|
########################################################################
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### Counter
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########################################################################
|
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class Counter(dict):
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'''Dict subclass for counting hashable items. Sometimes called a bag
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or multiset. Elements are stored as dictionary keys and their counts
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are stored as dictionary values.
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>>> c = Counter('abcdeabcdabcaba') # count elements from a string
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>>> c.most_common(3) # three most common elements
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[('a', 5), ('b', 4), ('c', 3)]
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>>> sorted(c) # list all unique elements
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['a', 'b', 'c', 'd', 'e']
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>>> ''.join(sorted(c.elements())) # list elements with repetitions
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'aaaaabbbbcccdde'
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>>> sum(c.values()) # total of all counts
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15
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|
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|
>>> c['a'] # count of letter 'a'
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5
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>>> for elem in 'shazam': # update counts from an iterable
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... c[elem] += 1 # by adding 1 to each element's count
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>>> c['a'] # now there are seven 'a'
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7
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>>> del c['b'] # remove all 'b'
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>>> c['b'] # now there are zero 'b'
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0
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|
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|
>>> d = Counter('simsalabim') # make another counter
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|
>>> c.update(d) # add in the second counter
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|
>>> c['a'] # now there are nine 'a'
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9
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|
|
|
>>> c.clear() # empty the counter
|
|
>>> c
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|
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')
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|
>>> c['b'] -= 2 # reduce the count of 'b' by two
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|
>>> c.most_common() # 'b' is still in, but its count is zero
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[('a', 3), ('c', 1), ('b', 0)]
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|
|
|
'''
|
|
# 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__(*args, **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
|
|
|
|
'''
|
|
if not args:
|
|
raise TypeError("descriptor '__init__' of 'Counter' object "
|
|
"needs an argument")
|
|
self = args[0]
|
|
args = args[1:]
|
|
if len(args) > 1:
|
|
raise TypeError('expected at most 1 arguments, got %d' % len(args))
|
|
super(Counter, self).__init__()
|
|
self.update(*args, **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('abcdeabcdabcaba').most_common(3)
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|
[('a', 5), ('b', 4), ('c', 3)]
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|
|
|
'''
|
|
# Emulate Bag.sortedByCount from Smalltalk
|
|
if n is None:
|
|
return sorted(self.iteritems(), key=_itemgetter(1), reverse=True)
|
|
return _heapq.nlargest(n, self.iteritems(), 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.iteritems()))
|
|
|
|
# Override dict methods where necessary
|
|
|
|
@classmethod
|
|
def fromkeys(cls, iterable, v=None):
|
|
# There is no equivalent method for counters because setting v=1
|
|
# means that no element can have a count greater than one.
|
|
raise NotImplementedError(
|
|
'Counter.fromkeys() is undefined. Use Counter(iterable) instead.')
|
|
|
|
def update(*args, **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 not args:
|
|
raise TypeError("descriptor 'update' of 'Counter' object "
|
|
"needs an argument")
|
|
self = args[0]
|
|
args = args[1:]
|
|
if len(args) > 1:
|
|
raise TypeError('expected at most 1 arguments, got %d' % len(args))
|
|
iterable = args[0] if args else None
|
|
if iterable is not None:
|
|
if isinstance(iterable, Mapping):
|
|
if self:
|
|
self_get = self.get
|
|
for elem, count in iterable.iteritems():
|
|
self[elem] = self_get(elem, 0) + count
|
|
else:
|
|
super(Counter, self).update(iterable) # fast path when counter is empty
|
|
else:
|
|
self_get = self.get
|
|
for elem in iterable:
|
|
self[elem] = self_get(elem, 0) + 1
|
|
if kwds:
|
|
self.update(kwds)
|
|
|
|
def subtract(*args, **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 not args:
|
|
raise TypeError("descriptor 'subtract' of 'Counter' object "
|
|
"needs an argument")
|
|
self = args[0]
|
|
args = args[1:]
|
|
if len(args) > 1:
|
|
raise TypeError('expected at most 1 arguments, got %d' % len(args))
|
|
iterable = args[0] if args else None
|
|
if iterable is not None:
|
|
self_get = self.get
|
|
if isinstance(iterable, 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(Counter, self).__delitem__(elem)
|
|
|
|
def __repr__(self):
|
|
if not self:
|
|
return '%s()' % self.__class__.__name__
|
|
items = ', '.join(map('%r: %r'.__mod__, self.most_common()))
|
|
return '%s({%s})' % (self.__class__.__name__, items)
|
|
|
|
# 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
|
|
|
|
|
|
if __name__ == '__main__':
|
|
# verify that instances can be pickled
|
|
from cPickle import loads, dumps
|
|
Point = namedtuple('Point', 'x, y', True)
|
|
p = Point(x=10, y=20)
|
|
assert p == loads(dumps(p))
|
|
|
|
# test and demonstrate ability to override methods
|
|
class Point(namedtuple('Point', 'x y')):
|
|
__slots__ = ()
|
|
@property
|
|
def hypot(self):
|
|
return (self.x ** 2 + self.y ** 2) ** 0.5
|
|
def __str__(self):
|
|
return 'Point: x=%6.3f y=%6.3f hypot=%6.3f' % (self.x, self.y, self.hypot)
|
|
|
|
for p in Point(3, 4), Point(14, 5/7.):
|
|
print p
|
|
|
|
class Point(namedtuple('Point', 'x y')):
|
|
'Point class with optimized _make() and _replace() without error-checking'
|
|
__slots__ = ()
|
|
_make = classmethod(tuple.__new__)
|
|
def _replace(self, _map=map, **kwds):
|
|
return self._make(_map(kwds.get, ('x', 'y'), self))
|
|
|
|
print Point(11, 22)._replace(x=100)
|
|
|
|
Point3D = namedtuple('Point3D', Point._fields + ('z',))
|
|
print Point3D.__doc__
|
|
|
|
import doctest
|
|
TestResults = namedtuple('TestResults', 'failed attempted')
|
|
print TestResults(*doctest.testmod())
|