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xrange.py
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xrange.py
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from math import ceil
from collections import Sequence, Iterator
class xrange(Sequence):
"""Pure-Python implementation of an ``xrange`` (aka ``range``
in Python 3) object. See `the CPython documentation
<http://docs.python.org/py3k/library/functions.html#range>`_
for details.
"""
def __init__(self, *args):
if len(args) == 1:
start, stop, step = 0, args[0], 1
elif len(args) == 2:
start, stop, step = args[0], args[1], 1
elif len(args) == 3:
start, stop, step = args
else:
raise TypeError('xrange() requires 1-3 int arguments')
try:
start, stop, step = int(start), int(stop), int(step)
except ValueError:
raise TypeError('an integer is required')
if step == 0:
raise ValueError('xrange() arg 3 must not be zero')
elif step < 0:
stop = min(stop, start)
else:
stop = max(stop, start)
self._start = start
self._stop = stop
self._step = step
self._len = (stop - start) // step + bool((stop - start) % step)
def __repr__(self):
if self._start == 0 and self._step == 1:
return 'xrange(%d)' % self._stop
elif self._step == 1:
return 'xrange(%d, %d)' % (self._start, self._stop)
return 'xrange(%d, %d, %d)' % (self._start, self._stop, self._step)
def __eq__(self, other):
return isinstance(other, xrange) and \
self._start == other._start and \
self._stop == other._stop and \
self._step == other._step
def __len__(self):
return self._len
def index(self, value):
"""Return the 0-based position of integer `value` in
the sequence this xrange represents."""
diff = value - self._start
quotient, remainder = divmod(diff, self._step)
if remainder == 0 and 0 <= quotient < self._len:
return abs(quotient)
raise ValueError('%r is not in range' % value)
def count(self, value):
"""Return the number of ocurrences of integer `value`
in the sequence this xrange represents."""
# a value can occur exactly zero or one times
return int(value in self)
def __contains__(self, value):
"""Return ``True`` if the integer `value` occurs in
the sequence this xrange represents."""
try:
self.index(value)
return True
except ValueError:
return False
def __reversed__(self):
"""Return an xrange which represents a sequence whose
contents are the same as the sequence this xrange
represents, but in the opposite order."""
sign = self._step / abs(self._step)
last = self._start + ((self._len - 1) * self._step)
return xrange(last, self._start - sign, -1 * self._step)
def __getitem__(self, index):
"""Return the element at position ``index`` in the sequence
this xrange represents, or raise :class:`IndexError` if the
position is out of range."""
if isinstance(index, slice):
return self.__getitem_slice(index)
if index < 0:
# negative indexes access from the end
index = self._len + index
if index < 0 or index >= self._len:
raise IndexError('xrange object index out of range')
return self._start + index * self._step
def __getitem_slice(self, slce):
"""Return an xrange which represents the requested slce
of the sequence represented by this xrange.
"""
start, stop, index_step = slce.start, slce.stop, slce.step
if index_step == 0:
raise ValueError('slice step cannot be 0')
start = start or self._start
stop = stop or self._stop
step = (index_step or 1) * self._step
if start < 0:
start = max(0, start + self._len)
if stop < 0:
stop = max(start, stop + self._len)
if step > 0:
return xrange(start, stop, step)
else:
rv = reversed(self)
rv._step = step
return rv
def __iter__(self):
"""Return an iterator which enumerates the elements of the
sequence this xrange represents."""
return xrangeiterator(self)
class xrangeiterator(Iterator):
"""An iterator for an :class:`xrange`.
"""
def __init__(self, xrangeobj):
self._xrange = xrangeobj
# Intialize the "last outputted value" to the value
# just before the first value; this simplifies next()
self._last = self._xrange._start - self._xrange._step
self._count = 0
def __iter__(self):
"""An iterator is already an iterator, so return ``self``.
"""
return self
def next(self):
"""Return the next element in the sequence represented
by the xrange we are iterating, or raise StopIteration
if we have passed the end of the sequence."""
self._last += self._xrange._step
self._count += 1
if self._count > self._xrange._len:
raise StopIteration()
return self._last