# pythonic way to do something N times without an index variable?

Every day I love python more and more.

Today, I was writing some code like:

``````for i in xrange(N):
do_something()
``````

I had to do something N times. But each time didn't depend on the value of `i` (index variable). I realized that I was creating a variable I never used (`i`), and I thought "There surely is a more pythonic way of doing this without the need for that useless index variable."

So... the question is: do you know how to do this simple task in a more (pythonic) beautiful way?

A slightly faster approach than looping on `xrange(N)` is:

``````import itertools

for _ in itertools.repeat(None, N):
do_something()
``````
• How much faster? Is there still a difference in Python 3.1? – Hamish Grubijan Jun 4 '10 at 1:18
• @Hamish: My test with 2.6 says 32% faster (23.2 us vs 17.6 us for N=1000). But that is a really time time anyways. I would default to the OP's code because it is more immediately readable (to me). – Mike Boers Jun 4 '10 at 1:31
• That's good to know about the speed. I certainly echo Mike's sentiment about the OP's code being more readable. – Wayne Werner Jun 4 '10 at 17:52
• @Wayne, I guess habit is really very powerful -- except for the fact that you're used to it, why else would "count up from 0 to N-1 [[and completely ignore the count]] each time performing this count-independent operation" be intrinsically any clearer than "repeat N times the following operation"...? – Alex Martelli Jun 4 '10 at 18:53
• are you sure the speed is really relevant? Isn't it so that If you do anything significant in that loop, it will very likely take hundreds or thousands as much time as the iteration style you chose? – Henning May 5 '14 at 19:22

Use the _ variable, as I learned when I asked this question, for example:

``````# A long way to do integer exponentiation
num = 2
power = 3
product = 1
for _ in xrange(power):
product *= num
print product
``````
• Not the downvoter but it might be because you're referring to another post instead of adding more detail in the answer – Downgoat Jan 24 '16 at 5:35
• @Downgoat: Thanks for the feedback. That said, there's not that much to say about this idiom. My point in referring to another post was to point out that a search might have produced the answer. I find it ironic that this question has several times the upvotes as the other one. – GreenMatt Apr 12 '16 at 17:31

I just use `for _ in range(n)`, it's straight to the point. It's going to generate the entire list for huge numbers in Python 2, but if you're using Python 3 it's not a problem.

since function is first-class citizen, you can write small wrapper (from Alex answers)

``````def repeat(f, N):
for _ in itertools.repeat(None, N): f()
``````

then you can pass function as argument.

• @Hamish: Almost nothing. (17.8 us per loop under the same conditions as the timings for Alex's answer, for a 0.2 us difference). – Mike Boers Jun 4 '10 at 1:34

The _ is the same thing as x. However it's a python idiom that's used to indicate an identifier that you don't intend to use. In python these identifiers don't takes memor or allocate space like variables do in other languages. It's easy to forget that. They're just names that point to objects, in this case an integer on each iteration.

I found the various answers really elegant (especially Alex Martelli's) but I wanted to quantify performance first hand, so I cooked up the following script:

``````from itertools import repeat
N = 10000000

pass

def standard(N):
for x in range(N):

def underscore(N):
for _ in range(N):

def loopiter(N):
for _ in repeat(None, N):

def loopiter2(N):
for _ in map(payload, repeat(None, N)):
pass

if __name__ == '__main__':
import timeit
print("standard: ",timeit.timeit("standard({})".format(N),
setup="from __main__ import standard", number=1))
print("underscore: ",timeit.timeit("underscore({})".format(N),
setup="from __main__ import underscore", number=1))
print("loopiter: ",timeit.timeit("loopiter({})".format(N),
setup="from __main__ import loopiter", number=1))
print("loopiter2: ",timeit.timeit("loopiter2({})".format(N),
setup="from __main__ import loopiter2", number=1))
``````

I also came up with an alternative solution that builds on Martelli's one and uses `map()` to call the payload function. OK, I cheated a bit in that I took the freedom of making the payload accept a parameter that gets discarded: I don't know if there is a way around this. Nevertheless, here are the results:

``````standard:  0.8398549720004667
underscore:  0.8413165839992871
loopiter:  0.7110594899968419
loopiter2:  0.5891903560004721
``````

so using map yields an improvement of approximately 30% over the standard for loop and an extra 19% over Martelli's.

Assume that you've defined do_something as a function, and you'd like to perform it N times. Maybe you can try the following:

``````todos = [do_something] * N
for doit in todos:
doit()
``````
• Sure. Let's not just call the function a million times, let's allocate a list of a million items too. If the CPU is working, shouldn't also the memory get stressed a little? The answer cannot be characterized as definitely “not useful” (it's showing a different, functioning approach) so I can't downvote, but I disagree and I'm totally opposed to it. – tzot Jun 5 '10 at 23:59
• Isn't it just a list of N references to the same function value? – Nick McCurdy Mar 21 '16 at 1:49
• rather better to do `fn() for fn in itertools.repeat(do_something, N)` and save pre-generating the array... this is my preferred idiom. – F1Rumors May 10 '16 at 3:49
• @tzot Why the condescending tone? This person put effort into writing an answer and now may be discouraged from contributing in the future. Even if it has performance implications, it is a working option and especially if N is small the performance/memory implications aren't significant. – davidscolgan Oct 2 '18 at 14:41
• I'm always surprised at how performance obsessed Python developers are :) Although I agree that it is not idiomatic, and someone new to Python reading it may not understand what is going on as clearly as when simply using an iterator – Asfand Qazi Jan 4 at 12:09

What about a simple while loop?

``````while times > 0:
do_something()
times -= 1
``````

You already have the variable; why not use it?

• My only thinking is that it is 3 lines of code versus one (?) – AJP Mar 10 '13 at 9:02
• @AJP - More like 4 lines vs 2 lines – ArtOfWarfare Oct 30 '13 at 14:21
• adds the comparison (times > 0) and the decrement (times -= 1) to the overheads... so slower than the for loop... – F1Rumors May 10 '16 at 3:52
• @F1Rumors Have not measured it, but I would be surprised if JIT compilers like PyPy should generate slower code for such a simple while loop. – Philipp Claßen Apr 13 '18 at 20:10