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Recently I started using Python3 and it's lack of xrange hurts.

Simple example:

1) Python2:

from time import time as t
def count():
  st = t()
  [x for x in xrange(10000000) if x%4 == 0]
  et = t()
  print et-st

2) Python3:

from time import time as t

def xrange(x):

    return iter(range(x))

def count():
    st = t()
    [x for x in xrange(10000000) if x%4 == 0]
    et = t()
    print (et-st)

The results are, respectively:

1) 1.53888392448 2) 3.215819835662842

Why is that? I mean, why xrange's been removed? It's such a great tool to learn. For the beginners, just like myself, like we all were at some point. Why remove it? Can somebody point me to the proper PEP, I can't find it.


share|improve this question
range in Python 3.x is xrange from Python 2.x. It was in fact Python 2.x's range that was removed. – Anorov Feb 21 '13 at 23:43
PS, you should never time with time. Besides being easier to use and harder to get wrong, and repeating tests for you, timeit takes care of all kinds of things you won't remember, or even know how, to take care of (like disabling the GC), and may use a clock with thousands of times better resolution. – abarnert Feb 22 '13 at 0:06
Also, why are you testing the time to filter the range on x%4 == 0? Why not just test list(xrange()) vs. list(range()), so there's as little extraneous work as possible? (For example, how do you know 3.x isn't doing x%4 more slowly?) For that matter, why are you building a huge list, which involves a whole lot of memory allocation (which, besides being slow, is also incredibly variable)? – abarnert Feb 22 '13 at 0:14
See , section "Views And Iterators Instead Of Lists": "range() now behaves like xrange() used to behave, except it works with values of arbitrary size. The latter no longer exists." So, range now returns an iterator. iter(range) is redundant. – ToolmakerSteve Dec 14 '13 at 23:02
Sorry, realized quoting the change doc doesn't make it blindingly obvious. For anyone else who is confused, and doesn't want to read through the long accepted answer, and all its comments: Wherever you were using xrange in python 2, use range in python 3. It does what xrange used to do, which is return an iterator. If you need the results in a list, do list(range(..)). That is equivalent to python 2's range. Or to say it another way: xrange has been renamed range, because it is the better default; it wasn't necessary to have both, do list(range) if you really need a list.. – ToolmakerSteve Dec 14 '13 at 23:12

3 Answers 3

up vote 46 down vote accepted

Some performance measurements, using timeit instead of trying to do it manually with time.

First, Apple 2.7.2 64-bit:

In [37]: %timeit collections.deque((x for x in xrange(10000000) if x%4 == 0), maxlen=0)
1 loops, best of 3: 1.05 s per loop

Now, 3.3.0 64-bit:

In [83]: %timeit collections.deque((x for x in range(10000000) if x%4 == 0), maxlen=0)
1 loops, best of 3: 1.32 s per loop

In [84]: %timeit collections.deque((x for x in xrange(10000000) if x%4 == 0), maxlen=0)
1 loops, best of 3: 1.31 s per loop

In [85]: %timeit collections.deque((x for x in iter(range(10000000)) if x%4 == 0), maxlen=0) 
1 loops, best of 3: 1.33 s per loop

Apparently, 3.x range really is a bit slower than 2.x xrange. And the OP's xrange function has nothing to do with it. (Not surprising, as a one-time call to the __iter__ slot isn't likely to be visible among 10000000 calls to whatever happens in the loop, but someone brought it up as a possibility.)

But it's only 30% slower. How did the OP get 2x as slow? Well, if I repeat the same tests with 32-bit Python, I get 1.58 vs. 3.12. So my guess is that this is yet another of those cases where 3.x has been optimized for 64-bit performance in ways that hurt 32-bit.

But does it really matter? Check this out, with 3.3.0 64-bit again:

In [86]: %timeit [x for x in range(10000000) if x%4 == 0]
1 loops, best of 3: 3.65 s per loop

So, building the list takes more than twice as long than the entire iteration.

And as for "consumes much more resources than Python 2.6+", from my tests, it looks like a 3.x range is exactly the same size as a 2.x xrange—and, even if it were 10x as big, building the unnecessary list is still about 10000000x more of a problem than anything the range iteration could possibly do.

And what about an explicit for loop instead of the C loop inside deque?

In [87]: def consume(x):
   ....:     for i in x:
   ....:         pass
In [88]: %timeit consume(x for x in range(10000000) if x%4 == 0)
1 loops, best of 3: 1.85 s per loop

So, almost as much time wasted in the for statement as in the actual work of iterating the range.

If you're worried about optimizing the iteration of a range object, you're probably looking in the wrong place.

Meanwhile, you keep asking why xrange was removed, no matter how many times people tell you the same thing, but I'll repeat it again: It was not removed: it was renamed to range, and the 2.x range is what was removed.

Here's some proof that the 3.3 range object is a direct descendant of the 2.x xrange object (and not of the 2.x range function): the source to 3.3 range and 2.7 xrange. You can even see the change history (linked to, I believe, the change that replaced the last instance of the string "xrange" anywhere in the file).

So, why is it slower?

Well, for one, they've added a lot of new features. For another, they've done all kinds of changes all over the place (especially inside iteration) that have minor side effects. And there'd been a lot of work to dramatically optimize various important cases, even if it sometimes slightly pessimizes less important cases. Add this all up, and I'm not surprised that iterating a range as fast as possible is now a bit slower. It's one of those less-important cases that nobody would ever care enough to focus on. No one is likely to ever have a real-life use case where this performance difference is the hotspot in their code.

share|improve this answer
But it's only 30% slower. Still slower, but a great response mate, something to think about. It doesn't answer my quesion though: why was xrange removed?? Think about it this way - if you had a performance-dependant app based on multiprocessing knowing how much queue you need to consume a-time, would 30% make a difference or not? You see, you say it doesn't matter, but every time i use range i hear that huge distressing fan sound meaning cpu is on it's worst, while xrange doesn't do it. Think you about it ;) – catalesia Feb 22 '13 at 0:16
@catalesia: Once again, it wasn't removed, it was just renamed range. The range object in 3.3 is a direct descendant of the xrange object in 2.7, not of the range function in 2.7. It's like asking while itertools.imap was removed in favor of map. There is no answer, because no such thing happened. – abarnert Feb 22 '13 at 0:18
@catalesia: The minor performance changes are presumably not the result of a direct design decision to make ranges slower, but a side effect of 4 years of changes all over Python that have made many things faster, some things a little slower (and some things faster on x86_64 but slower on x86, or faster in some use cases but slower in others, etc.). Nobody was likely worried about a 30% difference either way in how long it takes to iterate a range while doing nothing else. – abarnert Feb 22 '13 at 0:20
"Nobody was likely worried about a 30% difference either way in how long it takes to iterate a range while doing nothing else." Exactly. – catalesia Feb 22 '13 at 0:25
@catalesia: Yes, exactly. But you seem to think that means the opposite of what it says. It's not a use case that anyone will ever care about, so nobody noticed that it got 30% slower. So what? If you can find a real-life program that runs more slowly in Python 3.3 than in 2.7 (or 2.6) because of this, people will care. If you can't, they won't, and you shouldn't either. – abarnert Feb 22 '13 at 0:33

Python3's range is Python2's xrange. There's no need to wrap an iter around it. To get an actual list in Python3, you need to use list(range(...))

If you want something that works with Python2 and Python3, try this

except NameError:
    xrange = range
share|improve this answer
+1: made me laugh. If its too much trouble to run a script thru Python 2 => 3 converter, or do a global search and replace on xrange => range, just (safely) create the missing xrange. I like it. – ToolmakerSteve Dec 14 '13 at 22:56

Python 3's range type works just like Python 2's xrange. I'm not sure why you're seeing a slowdown, since the iterator returned by your xrange function is exactly what you'd get if you iterated over range directly.

I'm not able to reproduce the slowdown on my system. Here's how I tested:

Python 2, with xrange:

Python 2.7.3 (default, Apr 10 2012, 23:24:47) [MSC v.1500 64 bit (AMD64)] on win32
Type "copyright", "credits" or "license()" for more information.
>>> import timeit
>>> timeit.timeit("[x for x in xrange(1000000) if x%4]",number=100)

Python 3, with range is a tiny bit faster:

Python 3.3.0 (v3.3.0:bd8afb90ebf2, Sep 29 2012, 10:57:17) [MSC v.1600 64 bit (AMD64)] on win32
Type "copyright", "credits" or "license()" for more information.
>>> import timeit
>>> timeit.timeit("[x for x in range(1000000) if x%4]",number=100)

I recently learned that Python 3's range type has some other neat features, such as support for slicing: range(10,100,2)[5:25:5] is range(15, 60, 10)!

share|improve this answer
Perhaps the slowdown comes from the lookup of the new xrange so many times, or is that done only once? – askewchan Feb 21 '13 at 23:46
It looks like it's only done once (returning an iterator). – Blckknght Feb 21 '13 at 23:48
@catalesia I think the point here is that xrange was not removed, just renamed. – askewchan Feb 21 '13 at 23:54
@Blckknght: Cheers, but it still sucks having an explanation the likes of: "Set literals and comprehensions [19] [20] [done] {x} means set([x]); {x, y} means set([x, y]). {F(x) for x in S if P(x)} means set(F(x) for x in S if P(x)). NB. {range(x)} means set([range(x)]), NOT set(range(x)). There's no literal for an empty set; use set() (or {1}&{2} :-). There's no frozenset literal; they are too rarely needed." – catalesia Feb 22 '13 at 0:03
The biggest win in 3.x range, as far as I'm concerned, is the constant-time __contains__. Newbies used to write 300000 in xrange(1000000) and that caused it to iterate the whole xrange (or at least the first 30% of it), so we had to explain why that was a bad idea, even though it looks so pythonic. Now, it is pythonic. – abarnert Feb 22 '13 at 0:05

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