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# Why is list(xrange) slower than range()?

I was doing a couple of tests, and found that `xrange()` is MUCH faster than `range()` (as confirmed by various questions/answers as well):

``````>>> from timeit import timeit
>>> timeit(stmt = 'x = range(1000)', number = 10000)
0.38216601211680734
>>> timeit(stmt = 'x = xrange(1000)', number = 10000)
0.010537726631953959 # xrange is much faster than range
``````

I got curious, so I tried another test, to see if `list(xrange(1000))` would still be faster than simply `range(1000)`:

``````>>> timeit(stmt = 'x = range(1000)', number = 10000)
0.3858838963796529
>>> timeit(stmt = 'x = list(xrange(1000))', number = 10000)
0.492734766028903 # now, xrange is slower
``````

This is also true for more calls:

``````>>> timeit(stmt = 'x = range(1000)', number = 100000)
3.6457308233315757
>>> timeit(stmt = 'x = list(xrange(1000))', number = 100000)
5.722031755612818
``````

So, my question is, why is `list(xrange)` significantly slower than `range` itself?

I saw this question on the slowness of `list()`, `dict()`, and other constructor methods, so is that why `list(xrange)` is so much slower?

Using `dis.dis()`, I found that `list(xrange)` performs more computations than `range`):

``````>>> dis.dis('x = list(xrange(1000))')
0 SETUP_LOOP      15648 (to 15651)
3 SLICE+2
4 IMPORT_NAME     29545 (29545)
10 POP_JUMP_IF_FALSE 28257
13 BUILD_LIST      10341
16 <49>
17 <48>
18 <48>
19 <48>
20 STORE_SLICE+1
21 STORE_SLICE+1
>>> dis.dis('x = range(1000)')
0 SETUP_LOOP      15648 (to 15651)
3 SLICE+2
4 POP_JUMP_IF_FALSE 28257
7 BUILD_LIST      10341
10 <49>
11 <48>
12 <48>
13 <48>
14 STORE_SLICE+1
``````
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What is the difference between range and xrange - stackoverflow.com/questions/94935/… – ndpu Apr 27 '13 at 13:26
@ndpu I know the difference between the two. I am wondering why `list(xrange)` is slower than `range` itself. – Rushy Panchal Apr 27 '13 at 13:27
`xrange(1000)` doesn't create a list at all. It's a generator. It's closer to assigning a constant than creation of a list, in terms of performance. – Stjepan Bakrac Apr 27 '13 at 13:27
@StjepanBakrac What's your point? OP knows that, and it's not in any way related to the question. – delnan Apr 27 '13 at 13:31
@delnan If that was the case, why does he compare them and sound surprised about it? Saying that xrange() is MUCH [sic] faster than range() is a pointless statement, because they do entirely different things. Also, if he knew it, the answer to the question would be self-evident, because it's simply more overhead to achieve the same thing. It was not intended as a response to his actual question, which is why I didn't post it as an answer, but I thought it might help the confusion of the two terms. – Stjepan Bakrac Apr 27 '13 at 13:39

Of course `range()` is going to be faster, when the end product you desire is a list of all numbers in a range, `range` does all of that in a single function call. As opposed to `list(xrange())` which burdens the `list(..)` constructor with the overhead of the `rangeiterator` object created to iterate over the `xrange` object, which the `list(..)` constructor must consume. Whereas `range()` constructs the list immediately, no intermediate iterator consumption... how could that be beaten? The main difference is: 1 function call vs 2 and less importantly 1 global lookup vs 2.

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`range()` will construct a list right away and return it to you. So if it has many items it is slow to build.

On the other hand, `xrange()` returns directly an iterator-like object which yields values when you ask for them. From the docs:

xrange(start, stop[, step])
This function is very similar to range(), but returns an xrange object instead of a list. This is an opaque sequence type which yields the same values as the corresponding list, without actually storing them all simultaneously. The advantage of `xrange()` over `range()` is minimal (since `xrange()` still has to create the values when asked for them) except when a very large range is used on a memory-starved machine or when all of the range’s elements are never used (such as when the loop is usually terminated with break).

So, in your first example, `xrange()` is naturally faster, while in the second one it's slower because, while `range()` already returns a list (which won't be converted then), `list(xrange())` will have to do more work to not only produce values, but also creating a new list and storing values in.

P.S. This holds true for Python 2. In Python 3, instead, there is only `range()` which works exactly like the Python 2-`xrange()`.

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@Blender: Yes added. Thanks. However the OP does not seem to have clear the base difference between `range()` and `xrange()` (just look at the first sentence) so I thought I was going to clarify it. – rubik Apr 27 '13 at 13:30
I knew the difference prior to asking this question. – Rushy Panchal Apr 27 '13 at 13:35