377 lines
12 KiB
Python
377 lines
12 KiB
Python
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from collections.abc import Sequence, Hashable
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from itertools import islice, chain
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from numbers import Integral
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from pyrsistent._plist import plist
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class PDeque(object):
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"""
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Persistent double ended queue (deque). Allows quick appends and pops in both ends. Implemented
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using two persistent lists.
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A maximum length can be specified to create a bounded queue.
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Fully supports the Sequence and Hashable protocols including indexing and slicing but
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if you need fast random access go for the PVector instead.
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Do not instantiate directly, instead use the factory functions :py:func:`dq` or :py:func:`pdeque` to
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create an instance.
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Some examples:
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>>> x = pdeque([1, 2, 3])
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>>> x.left
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1
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>>> x.right
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3
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>>> x[0] == x.left
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True
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>>> x[-1] == x.right
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True
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>>> x.pop()
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pdeque([1, 2])
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>>> x.pop() == x[:-1]
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True
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>>> x.popleft()
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pdeque([2, 3])
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>>> x.append(4)
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pdeque([1, 2, 3, 4])
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>>> x.appendleft(4)
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pdeque([4, 1, 2, 3])
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>>> y = pdeque([1, 2, 3], maxlen=3)
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>>> y.append(4)
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pdeque([2, 3, 4], maxlen=3)
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>>> y.appendleft(4)
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pdeque([4, 1, 2], maxlen=3)
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"""
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__slots__ = ('_left_list', '_right_list', '_length', '_maxlen', '__weakref__')
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def __new__(cls, left_list, right_list, length, maxlen=None):
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instance = super(PDeque, cls).__new__(cls)
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instance._left_list = left_list
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instance._right_list = right_list
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instance._length = length
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if maxlen is not None:
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if not isinstance(maxlen, Integral):
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raise TypeError('An integer is required as maxlen')
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if maxlen < 0:
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raise ValueError("maxlen must be non-negative")
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instance._maxlen = maxlen
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return instance
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@property
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def right(self):
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"""
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Rightmost element in dqueue.
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"""
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return PDeque._tip_from_lists(self._right_list, self._left_list)
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@property
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def left(self):
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"""
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Leftmost element in dqueue.
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"""
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return PDeque._tip_from_lists(self._left_list, self._right_list)
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@staticmethod
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def _tip_from_lists(primary_list, secondary_list):
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if primary_list:
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return primary_list.first
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if secondary_list:
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return secondary_list[-1]
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raise IndexError('No elements in empty deque')
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def __iter__(self):
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return chain(self._left_list, self._right_list.reverse())
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def __repr__(self):
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return "pdeque({0}{1})".format(list(self),
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', maxlen={0}'.format(self._maxlen) if self._maxlen is not None else '')
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__str__ = __repr__
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@property
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def maxlen(self):
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"""
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Maximum length of the queue.
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"""
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return self._maxlen
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def pop(self, count=1):
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"""
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Return new deque with rightmost element removed. Popping the empty queue
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will return the empty queue. A optional count can be given to indicate the
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number of elements to pop. Popping with a negative index is the same as
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popleft. Executes in amortized O(k) where k is the number of elements to pop.
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>>> pdeque([1, 2]).pop()
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pdeque([1])
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>>> pdeque([1, 2]).pop(2)
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pdeque([])
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>>> pdeque([1, 2]).pop(-1)
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pdeque([2])
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"""
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if count < 0:
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return self.popleft(-count)
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new_right_list, new_left_list = PDeque._pop_lists(self._right_list, self._left_list, count)
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return PDeque(new_left_list, new_right_list, max(self._length - count, 0), self._maxlen)
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def popleft(self, count=1):
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"""
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Return new deque with leftmost element removed. Otherwise functionally
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equivalent to pop().
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>>> pdeque([1, 2]).popleft()
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pdeque([2])
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"""
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if count < 0:
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return self.pop(-count)
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new_left_list, new_right_list = PDeque._pop_lists(self._left_list, self._right_list, count)
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return PDeque(new_left_list, new_right_list, max(self._length - count, 0), self._maxlen)
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@staticmethod
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def _pop_lists(primary_list, secondary_list, count):
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new_primary_list = primary_list
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new_secondary_list = secondary_list
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while count > 0 and (new_primary_list or new_secondary_list):
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count -= 1
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if new_primary_list.rest:
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new_primary_list = new_primary_list.rest
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elif new_primary_list:
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new_primary_list = new_secondary_list.reverse()
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new_secondary_list = plist()
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else:
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new_primary_list = new_secondary_list.reverse().rest
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new_secondary_list = plist()
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return new_primary_list, new_secondary_list
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def _is_empty(self):
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return not self._left_list and not self._right_list
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def __lt__(self, other):
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if not isinstance(other, PDeque):
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return NotImplemented
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return tuple(self) < tuple(other)
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def __eq__(self, other):
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if not isinstance(other, PDeque):
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return NotImplemented
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if tuple(self) == tuple(other):
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# Sanity check of the length value since it is redundant (there for performance)
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assert len(self) == len(other)
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return True
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return False
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def __hash__(self):
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return hash(tuple(self))
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def __len__(self):
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return self._length
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def append(self, elem):
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"""
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Return new deque with elem as the rightmost element.
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>>> pdeque([1, 2]).append(3)
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pdeque([1, 2, 3])
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"""
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new_left_list, new_right_list, new_length = self._append(self._left_list, self._right_list, elem)
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return PDeque(new_left_list, new_right_list, new_length, self._maxlen)
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def appendleft(self, elem):
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"""
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Return new deque with elem as the leftmost element.
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>>> pdeque([1, 2]).appendleft(3)
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pdeque([3, 1, 2])
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"""
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new_right_list, new_left_list, new_length = self._append(self._right_list, self._left_list, elem)
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return PDeque(new_left_list, new_right_list, new_length, self._maxlen)
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def _append(self, primary_list, secondary_list, elem):
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if self._maxlen is not None and self._length == self._maxlen:
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if self._maxlen == 0:
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return primary_list, secondary_list, 0
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new_primary_list, new_secondary_list = PDeque._pop_lists(primary_list, secondary_list, 1)
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return new_primary_list, new_secondary_list.cons(elem), self._length
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return primary_list, secondary_list.cons(elem), self._length + 1
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@staticmethod
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def _extend_list(the_list, iterable):
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count = 0
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for elem in iterable:
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the_list = the_list.cons(elem)
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count += 1
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return the_list, count
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def _extend(self, primary_list, secondary_list, iterable):
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new_primary_list, extend_count = PDeque._extend_list(primary_list, iterable)
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new_secondary_list = secondary_list
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current_len = self._length + extend_count
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if self._maxlen is not None and current_len > self._maxlen:
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pop_len = current_len - self._maxlen
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new_secondary_list, new_primary_list = PDeque._pop_lists(new_secondary_list, new_primary_list, pop_len)
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extend_count -= pop_len
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return new_primary_list, new_secondary_list, extend_count
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def extend(self, iterable):
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"""
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Return new deque with all elements of iterable appended to the right.
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>>> pdeque([1, 2]).extend([3, 4])
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pdeque([1, 2, 3, 4])
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"""
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new_right_list, new_left_list, extend_count = self._extend(self._right_list, self._left_list, iterable)
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return PDeque(new_left_list, new_right_list, self._length + extend_count, self._maxlen)
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def extendleft(self, iterable):
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"""
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Return new deque with all elements of iterable appended to the left.
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NB! The elements will be inserted in reverse order compared to the order in the iterable.
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>>> pdeque([1, 2]).extendleft([3, 4])
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pdeque([4, 3, 1, 2])
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"""
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new_left_list, new_right_list, extend_count = self._extend(self._left_list, self._right_list, iterable)
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return PDeque(new_left_list, new_right_list, self._length + extend_count, self._maxlen)
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def count(self, elem):
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"""
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Return the number of elements equal to elem present in the queue
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>>> pdeque([1, 2, 1]).count(1)
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2
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"""
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return self._left_list.count(elem) + self._right_list.count(elem)
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def remove(self, elem):
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"""
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Return new deque with first element from left equal to elem removed. If no such element is found
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a ValueError is raised.
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>>> pdeque([2, 1, 2]).remove(2)
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pdeque([1, 2])
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"""
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try:
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return PDeque(self._left_list.remove(elem), self._right_list, self._length - 1)
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except ValueError:
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# Value not found in left list, try the right list
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try:
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# This is severely inefficient with a double reverse, should perhaps implement a remove_last()?
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return PDeque(self._left_list,
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self._right_list.reverse().remove(elem).reverse(), self._length - 1)
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except ValueError as e:
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raise ValueError('{0} not found in PDeque'.format(elem)) from e
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def reverse(self):
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"""
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Return reversed deque.
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>>> pdeque([1, 2, 3]).reverse()
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pdeque([3, 2, 1])
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Also supports the standard python reverse function.
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>>> reversed(pdeque([1, 2, 3]))
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pdeque([3, 2, 1])
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"""
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return PDeque(self._right_list, self._left_list, self._length)
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__reversed__ = reverse
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def rotate(self, steps):
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"""
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Return deque with elements rotated steps steps.
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>>> x = pdeque([1, 2, 3])
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>>> x.rotate(1)
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pdeque([3, 1, 2])
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>>> x.rotate(-2)
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pdeque([3, 1, 2])
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"""
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popped_deque = self.pop(steps)
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if steps >= 0:
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return popped_deque.extendleft(islice(self.reverse(), steps))
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return popped_deque.extend(islice(self, -steps))
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def __reduce__(self):
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# Pickling support
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return pdeque, (list(self), self._maxlen)
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def __getitem__(self, index):
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if isinstance(index, slice):
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if index.step is not None and index.step != 1:
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# Too difficult, no structural sharing possible
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return pdeque(tuple(self)[index], maxlen=self._maxlen)
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result = self
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if index.start is not None:
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result = result.popleft(index.start % self._length)
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if index.stop is not None:
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result = result.pop(self._length - (index.stop % self._length))
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return result
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if not isinstance(index, Integral):
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raise TypeError("'%s' object cannot be interpreted as an index" % type(index).__name__)
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if index >= 0:
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return self.popleft(index).left
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shifted = len(self) + index
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if shifted < 0:
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raise IndexError(
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"pdeque index {0} out of range {1}".format(index, len(self)),
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)
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return self.popleft(shifted).left
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index = Sequence.index
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Sequence.register(PDeque)
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Hashable.register(PDeque)
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def pdeque(iterable=(), maxlen=None):
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"""
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Return deque containing the elements of iterable. If maxlen is specified then
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len(iterable) - maxlen elements are discarded from the left to if len(iterable) > maxlen.
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>>> pdeque([1, 2, 3])
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pdeque([1, 2, 3])
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>>> pdeque([1, 2, 3, 4], maxlen=2)
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pdeque([3, 4], maxlen=2)
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"""
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t = tuple(iterable)
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if maxlen is not None:
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t = t[-maxlen:]
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length = len(t)
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pivot = int(length / 2)
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left = plist(t[:pivot])
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right = plist(t[pivot:], reverse=True)
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return PDeque(left, right, length, maxlen)
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def dq(*elements):
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"""
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Return deque containing all arguments.
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>>> dq(1, 2, 3)
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pdeque([1, 2, 3])
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"""
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return pdeque(elements)
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