#!/usr/bin/env python """ Copyright (c) 2006-2019 sqlmap developers (http://sqlmap.org/) See the file 'LICENSE' for copying permission """ import numbers class xrange(object): """ Advanced (re)implementation of xrange (supports slice/copy/etc.) Reference: http://code.activestate.com/recipes/521885-a-pythonic-implementation-of-xrange/ >>> list(xrange(1, 9)) == list(range(1, 9)) True >>> list(xrange(8, 0, -16)) == list(range(8, 0, -16)) True >>> list(xrange(0, 8, 16)) == list(range(0, 8, 16)) True >>> list(xrange(0, 4, 5)) == list(range(0, 4, 5)) True >>> list(xrange(4, 0, 3)) == list(range(4, 0, 3)) True >>> list(xrange(0, -3)) == list(range(0, -3)) True >>> list(xrange(0, 7, 2)) == list(range(0, 7, 2)) True >>> foobar = xrange(1, 10) >>> 7 in foobar True >>> 11 in foobar False >>> foobar[0] 1 """ __slots__ = ['_slice'] def __init__(self, *args): if args and isinstance(args[0], type(self)): self._slice = slice(args[0].start, args[0].stop, args[0].step) else: self._slice = slice(*args) if self._slice.stop is None: raise TypeError("xrange stop must not be None") @property def start(self): if self._slice.start is not None: return self._slice.start return 0 @property def stop(self): return self._slice.stop @property def step(self): if self._slice.step is not None: return self._slice.step return 1 def __hash__(self): return hash(self._slice) def __cmp__(self, other): return (cmp(type(self), type(other)) or cmp(self._slice, other._slice)) def __repr__(self): return '%s(%r, %r, %r)' % (type(self).__name__, self.start, self.stop, self.step) def __len__(self): return self._len() def _len(self): return max(0, 1 + int((self.stop - 1 - self.start) // self.step)) def __contains__(self, value): return (self.start <= value < self.stop) and (value - self.start) % self.step == 0 def __getitem__(self, index): if isinstance(index, slice): start, stop, step = index.indices(self._len()) return xrange(self._index(start), self._index(stop), step * self.step) elif isinstance(index, numbers.Integral): if index < 0: fixed_index = index + self._len() else: fixed_index = index if not 0 <= fixed_index < self._len(): raise IndexError("Index %d out of %r" % (index, self)) return self._index(fixed_index) else: raise TypeError("xrange indices must be slices or integers") def _index(self, i): return self.start + self.step * i def index(self, i): if self.start <= i < self.stop: return i - self.start else: raise ValueError("%d is not in list" % i)