In answering another question, I suggested to use timeit to test the difference between indexing a list with positive integers vs. negative integers. Here's the code:

import timeit
print (t)
print (t)

I ran this code with python 2.6:

$ python2.6 test.py

Then I ran it with python 3.2:

$ python3.2 test.py

Then I scratched my head, did a little google searching and decided to post these observations here.

Operating system: OS-X (10.5.8) -- Intel Core2Duo

That seems like a pretty significant difference to me (a factor of over 1.5 difference). Does anyone have an idea why python3 is so much slower -- especially for such a common operation?


I've run the same code on my Ubuntu Linux desktop (Intel i7) and achieved comparable results with python2.6 and python 3.2. It seems that this is an issue which is operating system (or processor) dependent (Other users are seeing the same behavior on Linux machines -- See comments).


The startup banner was requested in one of the answers, so here goes:

Python 2.6.4 (r264:75821M, Oct 27 2009, 19:48:32) 
[GCC 4.0.1 (Apple Inc. build 5493)] on darwin


Python 3.2 (r32:88452, Feb 20 2011, 10:19:59) 
[GCC 4.0.1 (Apple Inc. build 5493)] on darwin


I've just installed fresh versions of python2.7.3 and python3.2.3 from http://www.python.org/download/

In both cases, I took the

"Python x.x.3 Mac OS X 32-bit i386/PPC Installer (for Mac OS X 10.3 through 10.6 [2])"

since I am on OS X 10.5. Here are the new timings (which are reasonably consistent through multiple trials):

python 2.7

$python2.7 test.py

python 3.2.3

$python3.2 test.py
  • try using xrange() in python 2.x – Ashwini Chaudhary Jul 9 '12 at 18:06
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    @AshwiniChaudhary -- That stuff is all in setup which doesn't get timed. xrange vs range should have nothing to do with it. – mgilson Jul 9 '12 at 18:09
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    For reference: there is this answer discussing the lack of special-casing of small integers in python3.0, maybe it's still missing in python3.2 – Otto Allmendinger Jul 9 '12 at 18:19
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    @OttoAllmendinger -- This is consistent with some of the answers there (much bigger difference on OS-X vs. Linux). You might be right. – mgilson Jul 9 '12 at 18:24
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    @mgilson I have roughly and consistently the same results as you on my Linux machine – Otto Allmendinger Jul 9 '12 at 18:25

This appears to be an artifact of some builds of Python 3.2. The best hypothesis at this point is that all 32-bit Intel builds have the slowdown, but no 64-bit ones do. Read on for further details.

You didn't run nearly enough tests to determine anything. Repeating your test a bunch of times, I got values ranging from 0.31 to 0.54 for the same test, which is a huge variation.

So, I ran your test with 10x the number, and repeat=10, using a bunch of different Python2 and Python3 installs. Throwing away the top and bottom results, averaging the other 8, and dividing by 10 (to get a number equivalent to your tests), here's what I saw:

 1. 0.52/0.53 Lion 2.6
 2. 0.49/0.50 Lion 2.7
 3. 0.48/0.48 MacPorts 2.7
 4. 0.39/0.49 MacPorts 3.2
 5. 0.39/0.48 HomeBrew 3.2

So, it looks like 3.2 is actually slightly faster with [99], and about the same speed with [-1].

However, on a 10.5 machine, I got these results:

 1. 0.98/1.02 MacPorts 2.6
 2. 1.47/1.59 MacPorts 3.2

Back on the original (Lion) machine, I ran in 32-bit mode, and got this:

 1. 0.50/0.48 Homebrew 2.7
 2. 0.75/0.82 Homebrew 3.2

So, it seems like 32-bitness is what matters, and not Leopard vs. Lion, gcc 4.0 vs. gcc 4.2 or clang, hardware differences, etc. It would help to test 64-bit builds under Leopard, with different compilers, etc., but unfortunately my Leopard box is a first-gen Intel Mini (with a 32-bit Core Solo CPU), so I can't do that test.

As further circumstantial evidence, I ran a whole slew of other quick tests on the Lion box, and it looks like 32-bit 3.2 is ~50% slower than 2.x, while 64-bit 3.2 is maybe a little faster than 2.x. But if we really want to back that up, someone needs to pick and run a real benchmark suite.

Anyway, my best guess at this point is that when optimizing the 3.x branch, nobody put much effort into 32-bit i386 Mac builds. Which is actually a reasonable choice for them to have made.

Or, alternatively, they didn't even put much effort into 32-bit i386 period. That possibility might explain why the OP saw 2.x and 3.2 giving similar results on a linux box, while Otto Allmendinger saw 3.2 being similarly slower to 2.6 on a linux box. But since neither of them mentioned whether they were running 32-bit or 64-bit linux, it's hard to know whether that's relevant.

There are still lots of other different possibilities that we haven't ruled out, but this seems like the best one.

  • Both should be 32 bit. OS-X 10.5.8 is a 32 bit OS, so I couldn't run a 64 bit version if I wanted to. – mgilson Jul 9 '12 at 18:26
  • Leopard can run 64-bit apps. Unlike Snow Leopard, at least on Intel, it has a 32-bit-only kernel, and most of the built-in apps are 32-bit, and the stock gcc defaults to 32-bit, but it can still build and run 64-bit apps. – abarnert Jul 9 '12 at 18:30
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    First, this is a great answer (+1) although I'm not 100% convinced this is the reason. I've posted the startup banner and processor for my two machines. As far as I can tell, it looks like I got both python installs from the same place, compiled with the same compiler. If someone else can reproduce your test using OS-X 10.5.8, I'd probably be convinced. (if nothing else comes along, I'll probably accept this answer anyway -- It is a great answer). – mgilson Jul 9 '12 at 18:42
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    I'm installing the current MacPorts 2.6 and 3.2 on a 10.5 machine, which is going to take forever… but an hour after forever, I'll run the test there and see what happens. If it doesn't repro your results, that should conclusively prove there's something weird about your 3.2 build, not about 3.2 in general. If it does, there's room for more investigation. – abarnert Jul 9 '12 at 18:50
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    OK, true; if you want to know why it's slower you'd have to look at the source code and/or profile the interpreter and/or skim the archives of the python-dev list, all of which are more effort than I'm willing to put in at the moment… – abarnert Jul 9 '12 at 20:47

here is a code that illustrates at least part of the answer:

$ python
Python 2.7.3 (default, Apr 20 2012, 22:44:07) 
[GCC 4.6.3] on linux2
Type "help", "copyright", "credits" or "license" for more information.
>>> import timeit
>>> t=timeit.timeit('mylist[99]',setup='mylist=list(range(100))',number=50000000)
>>> print (t)
>>> t=timeit.timeit('mylist[99L]',setup='mylist=list(range(100))',number=50000000)
>>> print (t)

$ python3
Python 3.2.3 (default, May  3 2012, 15:54:42) 
[GCC 4.6.3] on linux2
Type "help", "copyright", "credits" or "license" for more information.
>>> import timeit
>>> t=timeit.timeit('mylist[99]',setup='mylist=list(range(100))',number=50000000)
>>> print (t)

python3 does not have old int type.

  • Very interesting. Using long integers gives timing results very similar to the python 3.x version. – mgilson Jul 9 '12 at 20:24
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    Nice. A quick bit of searching showed a post about speeding up long in Python 3.1 because it's so much slower than 2.x int, but unfortunately the site itself isn't reachable. More diligent searching would probably turn up exactly what they did to fix things, and maybe why it didn't help as much for 32-bit. But I can imagine lots of possibilities. For example, with 64-bit words, tricks where small longs fit into one word wouldn't require reading a char at a time… – abarnert Jul 9 '12 at 21:27

Python 3 range() is the Python 2 xrange(). If you want to simulate the Python 2 range() in Python 3 code, you have to use list(range(num). The bigger the num is, the bigger difference will be observed with your original code.

Indexing should be independent on what is stored inside the list as the list stores only references to the target objects. The references are untyped and all of the same kind. The list type is therefore a homogeneous data structure -- technically. Indexing means to turn the index value into the start address + offset. Calculating the offset is very efficient with at most one subtraction. This is very cheap extra operation when compared with the other operations.

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    sigh -- we've already been through this. the setup portion in timeit doesn't get timed. In my setup, I do use list(range(num)), so the stuff that is being timed (in both cases) is a list of numbers, not a range object. And I understand the stuff in your second paragraph too. The question is why is it so much slower to do that mentioned operations using python3.x compared to python 2.x? – mgilson Jul 9 '12 at 22:34
  • @mgilson; +1, you are right. I should read better next time ;) – pepr Jul 10 '12 at 7:43

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