Current File : //proc/self/root/opt/imunify360/venv/lib64/python3.11/site-packages/pyrsistent/_pbag.py |
from collections.abc import Container, Iterable, Sized, Hashable
from functools import reduce
from pyrsistent._pmap import pmap
def _add_to_counters(counters, element):
return counters.set(element, counters.get(element, 0) + 1)
class PBag(object):
"""
A persistent bag/multiset type.
Requires elements to be hashable, and allows duplicates, but has no
ordering. Bags are hashable.
Do not instantiate directly, instead use the factory functions :py:func:`b`
or :py:func:`pbag` to create an instance.
Some examples:
>>> s = pbag([1, 2, 3, 1])
>>> s2 = s.add(4)
>>> s3 = s2.remove(1)
>>> s
pbag([1, 1, 2, 3])
>>> s2
pbag([1, 1, 2, 3, 4])
>>> s3
pbag([1, 2, 3, 4])
"""
__slots__ = ('_counts', '__weakref__')
def __init__(self, counts):
self._counts = counts
def add(self, element):
"""
Add an element to the bag.
>>> s = pbag([1])
>>> s2 = s.add(1)
>>> s3 = s.add(2)
>>> s2
pbag([1, 1])
>>> s3
pbag([1, 2])
"""
return PBag(_add_to_counters(self._counts, element))
def update(self, iterable):
"""
Update bag with all elements in iterable.
>>> s = pbag([1])
>>> s.update([1, 2])
pbag([1, 1, 2])
"""
if iterable:
return PBag(reduce(_add_to_counters, iterable, self._counts))
return self
def remove(self, element):
"""
Remove an element from the bag.
>>> s = pbag([1, 1, 2])
>>> s2 = s.remove(1)
>>> s3 = s.remove(2)
>>> s2
pbag([1, 2])
>>> s3
pbag([1, 1])
"""
if element not in self._counts:
raise KeyError(element)
elif self._counts[element] == 1:
newc = self._counts.remove(element)
else:
newc = self._counts.set(element, self._counts[element] - 1)
return PBag(newc)
def count(self, element):
"""
Return the number of times an element appears.
>>> pbag([]).count('non-existent')
0
>>> pbag([1, 1, 2]).count(1)
2
"""
return self._counts.get(element, 0)
def __len__(self):
"""
Return the length including duplicates.
>>> len(pbag([1, 1, 2]))
3
"""
return sum(self._counts.itervalues())
def __iter__(self):
"""
Return an iterator of all elements, including duplicates.
>>> list(pbag([1, 1, 2]))
[1, 1, 2]
>>> list(pbag([1, 2]))
[1, 2]
"""
for elt, count in self._counts.iteritems():
for i in range(count):
yield elt
def __contains__(self, elt):
"""
Check if an element is in the bag.
>>> 1 in pbag([1, 1, 2])
True
>>> 0 in pbag([1, 2])
False
"""
return elt in self._counts
def __repr__(self):
return "pbag({0})".format(list(self))
def __eq__(self, other):
"""
Check if two bags are equivalent, honoring the number of duplicates,
and ignoring insertion order.
>>> pbag([1, 1, 2]) == pbag([1, 2])
False
>>> pbag([2, 1, 0]) == pbag([0, 1, 2])
True
"""
if type(other) is not PBag:
raise TypeError("Can only compare PBag with PBags")
return self._counts == other._counts
def __lt__(self, other):
raise TypeError('PBags are not orderable')
__le__ = __lt__
__gt__ = __lt__
__ge__ = __lt__
# Multiset-style operations similar to collections.Counter
def __add__(self, other):
"""
Combine elements from two PBags.
>>> pbag([1, 2, 2]) + pbag([2, 3, 3])
pbag([1, 2, 2, 2, 3, 3])
"""
if not isinstance(other, PBag):
return NotImplemented
result = self._counts.evolver()
for elem, other_count in other._counts.iteritems():
result[elem] = self.count(elem) + other_count
return PBag(result.persistent())
def __sub__(self, other):
"""
Remove elements from one PBag that are present in another.
>>> pbag([1, 2, 2, 2, 3]) - pbag([2, 3, 3, 4])
pbag([1, 2, 2])
"""
if not isinstance(other, PBag):
return NotImplemented
result = self._counts.evolver()
for elem, other_count in other._counts.iteritems():
newcount = self.count(elem) - other_count
if newcount > 0:
result[elem] = newcount
elif elem in self:
result.remove(elem)
return PBag(result.persistent())
def __or__(self, other):
"""
Union: Keep elements that are present in either of two PBags.
>>> pbag([1, 2, 2, 2]) | pbag([2, 3, 3])
pbag([1, 2, 2, 2, 3, 3])
"""
if not isinstance(other, PBag):
return NotImplemented
result = self._counts.evolver()
for elem, other_count in other._counts.iteritems():
count = self.count(elem)
newcount = max(count, other_count)
result[elem] = newcount
return PBag(result.persistent())
def __and__(self, other):
"""
Intersection: Only keep elements that are present in both PBags.
>>> pbag([1, 2, 2, 2]) & pbag([2, 3, 3])
pbag([2])
"""
if not isinstance(other, PBag):
return NotImplemented
result = pmap().evolver()
for elem, count in self._counts.iteritems():
newcount = min(count, other.count(elem))
if newcount > 0:
result[elem] = newcount
return PBag(result.persistent())
def __hash__(self):
"""
Hash based on value of elements.
>>> m = pmap({pbag([1, 2]): "it's here!"})
>>> m[pbag([2, 1])]
"it's here!"
>>> pbag([1, 1, 2]) in m
False
"""
return hash(self._counts)
Container.register(PBag)
Iterable.register(PBag)
Sized.register(PBag)
Hashable.register(PBag)
def b(*elements):
"""
Construct a persistent bag.
Takes an arbitrary number of arguments to insert into the new persistent
bag.
>>> b(1, 2, 3, 2)
pbag([1, 2, 2, 3])
"""
return pbag(elements)
def pbag(elements):
"""
Convert an iterable to a persistent bag.
Takes an iterable with elements to insert.
>>> pbag([1, 2, 3, 2])
pbag([1, 2, 2, 3])
"""
if not elements:
return _EMPTY_PBAG
return PBag(reduce(_add_to_counters, elements, pmap()))
_EMPTY_PBAG = PBag(pmap())