Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

I've encountered this code from Most pythonic way of counting matching elements in something iterable

r = xrange(1, 10)
print sum(1 for v in r if v % 2 == 0) # 4
print sum(1 for v in r if v % 3 == 0) # 3

r is iterated once. and then it's iterated again. I thought if an iterator is once consumed then it's over and it should not be iterated again.

Generator expressions can be iterated only once:

r = (7 * i for i in xrange(1, 10))
print sum(1 for v in r if v % 2 == 0) # 4
print sum(1 for v in r if v % 3 == 0) # 0

enumerate(L) too:

r = enumerate(mylist)

and file object too:

f = open(myfilename, 'r')

Why does xrange behave differently?

share|improve this question
Good question. A collections type for such "re-iterable" types should probably be added to Python as there are many of them: e.g., ValuesView. (…) – Neil G May 29 '12 at 17:14
up vote 17 down vote accepted

Because the xrange object produced by calling xrange() specifies an __iter__ that provides a unique version of itself (actually, a separate rangeiterator object) each time it's iterated.

>>> x = xrange(3)
>>> type(x)
<type 'xrange'>
>>> i = x.__iter__()
>>> type(i)
<type 'rangeiterator'>
share|improve this answer

Because xrange does not return a generator. It returns an xrange object.

>>> type(xrange(10))
<type 'xrange'>

In addition to repeated iteration, xrange objects support other things that generators don't -- like indexing:

>>> xrange(10)[5]

They also have a length:

>>> len(xrange(10))

And they can be reversed:

>>> list(reversed(xrange(10)))
[9, 8, 7, 6, 5, 4, 3, 2, 1, 0]

In short, xrange objects implement the full sequence interface:

>>> import collections
>>> isinstance(xrange(10), collections.Sequence)

They just do it without using up a lot of memory.

Note also that in Python 3, the range object returned by range has all the same properties.

share|improve this answer

If all you know about something is that it's an iterator, then in general you must assume you can only iterate over it once. That doesn't meant that every iterator can only be consumed once, just that every iterator can be consumed at least once. The obvious example is that lists and other sequences support this interface.

As senderle and Amber have explained, the particular iterators you get by calling xrange happen to be implemented such that you can iterate over them multiple times.

The general iterator idea allows that iterators may be exhausted after being iterated. This is because many iterators (such as generators, file traversal, etc) would be difficult to implement, or consume much more memory or run much slower, if they had to support arbitrarily many traversals, and very often this functionality wouldn't even be used. So if iterators had to support arbitrarily many traversals, then these things probably wouldn't be iterators.

Long story short, if you're writing code that operates on an arbitrary unknown iterator, you assume it can only be traversed once, and it doesn't matter if someone gives you an object that supports more than the functionality you need. If you know some additional information about the iterator (such as that it's also a sequence, or even as much as that it's an xrange object), then you can code to make use of that if you want.

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.