ref: 930efe67e81635e632f1e6f93e1c56499c79a55f
dir: /sys/src/cmd/python/Demo/classes/Range.py/
"""Example of a generator: re-implement the built-in range function without actually constructing the list of values. OldStyleRange is coded in the way required to work in a 'for' loop before iterators were introduced into the language; using __getitem__ and __len__ . """ def handleargs(arglist): """Take list of arguments and extract/create proper start, stop, and step values and return in a tuple""" try: if len(arglist) == 1: return 0, int(arglist[0]), 1 elif len(arglist) == 2: return int(arglist[0]), int(arglist[1]), 1 elif len(arglist) == 3: if arglist[2] == 0: raise ValueError("step argument must not be zero") return tuple(int(x) for x in arglist) else: raise TypeError("range() accepts 1-3 arguments, given", len(arglist)) except TypeError: raise TypeError("range() arguments must be numbers or strings " "representing numbers") def genrange(*a): """Function to implement 'range' as a generator""" start, stop, step = handleargs(a) value = start while value < stop: yield value value += step class oldrange: """Class implementing a range object. To the user the instances feel like immutable sequences (and you can't concatenate or slice them) Done using the old way (pre-iterators; __len__ and __getitem__) to have an object be used by a 'for' loop. """ def __init__(self, *a): """ Initialize start, stop, and step values along with calculating the nubmer of values (what __len__ will return) in the range""" self.start, self.stop, self.step = handleargs(a) self.len = max(0, (self.stop - self.start) // self.step) def __repr__(self): """implement repr(x) which is also used by print""" return 'range(%r, %r, %r)' % (self.start, self.stop, self.step) def __len__(self): """implement len(x)""" return self.len def __getitem__(self, i): """implement x[i]""" if 0 <= i <= self.len: return self.start + self.step * i else: raise IndexError, 'range[i] index out of range' def test(): import time, __builtin__ #Just a quick sanity check correct_result = __builtin__.range(5, 100, 3) oldrange_result = list(oldrange(5, 100, 3)) genrange_result = list(genrange(5, 100, 3)) if genrange_result != correct_result or oldrange_result != correct_result: raise Exception("error in implementation:\ncorrect = %s" "\nold-style = %s\ngenerator = %s" % (correct_result, oldrange_result, genrange_result)) print "Timings for range(1000):" t1 = time.time() for i in oldrange(1000): pass t2 = time.time() for i in genrange(1000): pass t3 = time.time() for i in __builtin__.range(1000): pass t4 = time.time() print t2-t1, 'sec (old-style class)' print t3-t2, 'sec (generator)' print t4-t3, 'sec (built-in)' if __name__ == '__main__': test()