Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

In python, when changing a purely recursive function into a recursive generator (not a plain generator) the performance seems to be degrading.

For example, here is a performance comparison between two functions which find all combinations of a list:

from datetime import datetime as dt

def rec_subsets(ms, i=0, s=[]):
    if i == len(ms):
        # do something with s
        return
    rec_subsets(ms, i+1, s)
    rec_subsets(ms, i+1, s + [ms[i]])

def gen_subsets(ms, i=0, s=[]):
    if i == len(ms):
        yield s
        return
    for a in gen_subsets(ms, i+1, s): yield a
    for a in gen_subsets(ms, i+1, s + [ms[i]]): yield a

t1 = dt.now()
rec_subsets(range(20))
t2 = dt.now()
print t2 - t1

t1 = dt.now()
for _ in gen_subsets(range(20)): pass
t2 = dt.now()
print t2 - t1

with the following output:

0:00:01.027000  # rec_subsets
0:00:02.860000  # gen_subsets

One would naturally expect gen_subsets to be approximately as fast as rec_subsets but this is not the case, it is much slower.

Is this normal or am I missing something?

share|improve this question
    
You need to put some code in place of # do something with s before you can take meaningful timings. – Janne Karila May 24 '13 at 9:28
    
Not necessary, gen_subsets is equally doing nothing. I did something similar in both cases just in case (adding to an empty global list) with the same results. – Rabih Kodeih May 24 '13 at 9:30
    
But why would you expect adding yield statements makes code faster? – Janne Karila May 24 '13 at 9:31
    
Well this is what I am trying to know by asking this question in the first place, if this is a valid/warranted assumption. Recursive generators are very nice and versatile compared with pure recursion. It would nice if their performance was also good. – Rabih Kodeih May 24 '13 at 9:36
    
By the way, the original question is about performance, the edit doesn't serve that purpose. – Rabih Kodeih May 24 '13 at 9:42
up vote 3 down vote accepted

rec_subsets() is still faster (for range(20)) even if result.append(s) is added inplace of # do something with s and the results of both gen_subsets() and rec_subsets() are consumed.

It might be explained by the following quote from PEP 380 (yield from syntax support):

Using a specialised syntax opens up possibilities for optimisation when there is a long chain of generators. Such chains can arise, for instance, when recursively traversing a tree structure. The overhead of passing __next__() calls and yielded values down and up the chain can cause what ought to be an O(n) operation to become, in the worst case, O(n**2).

You could generate a powerset using itertools.combinations():

from itertools import combinations

def subsets_comb(lst):
    return (comb for r in range(len(lst)+1) for comb in combinations(lst, r))

It is faster for range(20) on my machine:

name                    time ratio comment
subsets_comb        227 msec  1.00 [range(0, 20)]
subsets_ipowerset   476 msec  2.10 [range(0, 20)]
subsets_rec         957 msec  4.22 [range(0, 20)]
subsets_gen_pep380 2.34  sec 10.29 [range(0, 20)]
subsets_gen        2.63  sec 11.59 [range(0, 20)]

To reproduce the results, run time-subsets.py.

share|improve this answer
    
I think the lesson here is to substitute recursive functions with non-recursive generators for production code. – Rabih Kodeih May 25 '13 at 18:55

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.