def getRange(rangestr): from helper import anotherxrange as xrange _tmp1 = rangestr.split(',') numericrange = list() for _tmp2 in _tmp1: _tmp3 = _tmp2.split('-',1) if len(_tmp3) > 1: if not (_tmp3[0].isdigit() or _tmp3[1].isdigit()): raise ValueError, "the ranges need to be digits" return startport,endport = map(int,[_tmp3[0],_tmp3[1]]) endport += 1 numericrange.append(xrange(startport,endport)) else: if not _tmp3[0].isdigit(): raise ValueError, "the ranges need to be digits" return singleport = int(_tmp3[0]) numericrange.append(xrange(singleport,singleport+1)) return numericrange
def getRange(rangestr): from helper import anotherxrange as xrange _tmp1 = rangestr.split(',') numericrange = list() for _tmp2 in _tmp1: _tmp3 = _tmp2.split('-', 1) if len(_tmp3) > 1: if not (_tmp3[0].isdigit() or _tmp3[1].isdigit()): raise ValueError, "the ranges need to be digits" return startport, endport = map(int, [_tmp3[0], _tmp3[1]]) endport += 1 numericrange.append(xrange(startport, endport)) else: if not _tmp3[0].isdigit(): raise ValueError, "the ranges need to be digits" return singleport = int(_tmp3[0]) numericrange.append(xrange(singleport, singleport + 1)) return numericrange
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, (int, long)): 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 __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, (int, long)): 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 numericbrute(rangelist,zeropadding=0,template=None,defaults=False): """numericbrute gives a yield generator. accepts either zeropadding or template as optional argument""" if defaults: for i in xrange(1000,9999,100): yield('%04i' % i) for i in xrange(1001,9999,100): yield('%04i' % i) for i in xrange(0,9): for l in xrange(1,8): yield(('%s' % i) * l) for i in xrange(100,999): yield('%s' % i) for i in xrange(10000,99999,100): yield('%04i' % i) for i in xrange(10001,99999,100): yield('%04i' % i) for i in [1234,2345,3456,4567,5678,6789,7890,0123]: yield('%s' % i) for i in [12345,23456,34567,45678,56789,67890,01234]: yield('%s' % i) if zeropadding > 0: format = '%%0%su' % zeropadding elif template is not None: format = template else: format = '%u' # format string test format % 1 for x in rangelist: for y in x: r = format % y yield(r)
def numericbrute(rangelist, zeropadding=0, template=None, defaults=False): """numericbrute gives a yield generator. accepts either zeropadding or template as optional argument""" if defaults: for i in xrange(1000, 9999, 100): yield ('%04i' % i) for i in xrange(1001, 9999, 100): yield ('%04i' % i) for i in xrange(0, 9): for l in xrange(1, 8): yield (('%s' % i) * l) for i in xrange(100, 999): yield ('%s' % i) for i in xrange(10000, 99999, 100): yield ('%04i' % i) for i in xrange(10001, 99999, 100): yield ('%04i' % i) for i in [1234, 2345, 3456, 4567, 5678, 6789, 7890, 0123]: yield ('%s' % i) for i in [12345, 23456, 34567, 45678, 56789, 67890, 01234]: yield ('%s' % i) if zeropadding > 0: format = '%%0%su' % zeropadding elif template is not None: format = template else: format = '%u' # format string test format % 1 for x in rangelist: for y in x: r = format % y yield (r)