# Why does removing the else slow down my code?

Consider the following functions:

``````def fact1(n):
if n < 2:
return 1
else:
return n * fact1(n-1)

def fact2(n):
if n < 2:
return 1
return n * fact2(n-1)
``````

They should be equivalent. But there's a performance difference:

``````>>> T(lambda : fact1(1)).repeat(number=10000000)
[2.5754408836364746, 2.5710129737854004, 2.5678811073303223]
>>> T(lambda : fact2(1)).repeat(number=10000000)
[2.8432059288024902, 2.834425926208496, 2.8364310264587402]
``````

The version without the `else` is 10% slower. This is pretty significant. Why?

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Over how many tests did you do? –  Martin Risell Lilja Nov 20 '11 at 18:38
It's not significant, unless it's a part of bigger whole and is actually identified as a bottleneck (yeah, right). 0.3 seconds difference is nothing by itself. –  Cat Plus Plus Nov 20 '11 at 18:40
@M4tt4n erm... `.repeat(number=10000000)`. @Cat Plus Plus yeah, but finding out why things work the way they do is fun, right? –  Gabi Purcaru Nov 20 '11 at 18:40
@GabiPurcaru: Not if it leads to focusing on micro-optimisations. It's unhealthy, and a complete waste of time. I really have no idea why people upvote questions like this. –  Cat Plus Plus Nov 20 '11 at 18:43
@GabiPurcaru I upvote these kind of questions because they reward people who truly want to understand what their code actually does. People who investigate timing differences and code generation often end-up with a deep understanding of the language. –  Raymond Hettinger Nov 20 '11 at 19:33

For me, they are virtually the same speed: (Python 2.6.6 on Debian)

``````In [4]: %timeit fact1(1)
10000000 loops, best of 3: 151 ns per loop

In [5]: %timeit fact2(1)
10000000 loops, best of 3: 154 ns per loop
``````

The byte code is also very similar:

``````In [6]: dis.dis(fact1)
6 COMPARE_OP               0 (<)
9 JUMP_IF_FALSE            5 (to 17)
12 POP_TOP

16 RETURN_VALUE
>>   17 POP_TOP

30 BINARY_SUBTRACT
31 CALL_FUNCTION            1
34 BINARY_MULTIPLY
35 RETURN_VALUE
39 RETURN_VALUE

In [7]: dis.dis(fact2)
6 COMPARE_OP               0 (<)
9 JUMP_IF_FALSE            5 (to 17)
12 POP_TOP

16 RETURN_VALUE
>>   17 POP_TOP

30 BINARY_SUBTRACT
31 CALL_FUNCTION            1
34 BINARY_MULTIPLY
35 RETURN_VALUE
``````

The only difference is that the version with the `else` includes code to return `None` in case control reaches the end of the function body.

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I've done the same timings on Python 2.7 and 3.2 - the results are pretty much the same as you've found for 2.6. –  Thomas K Nov 20 '11 at 18:56
This is pretty strange, I timed it on a different machine and didn't get much of a difference at all. –  Aillyn Nov 20 '11 at 19:06
So why is it even a bit faster? I'm intrigued myself. –  the_drow Nov 21 '11 at 0:43
@the_drow: The difference isn't significant. If I'd measure it again, the result might well be the other way around. –  Sven Marnach Nov 21 '11 at 1:08

What is happening here is that `fact2` has a hash conflict with `__name__` in your module globals. That makes the lookup of the global `fact2` ever so slightly slower.

``````>>> [(k, hash(k) % 32) for k in globals().keys() ]
[('__builtins__', 8), ('__package__', 15), ('fact2', 25), ('__name__', 25), ('fact1', 26), ('__doc__', 29)]
``````

i.e. The same answer as for Why is early return slower than else? except that there the hash conflict was with `__builtins__`

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