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I need to filter a large lists several times, but I'm concerned with both simplicity of code and execution efficiency. To give an example:

all_things # huge collection of all things

# inefficient but clean code
def get_clothes():
    return filter(lambda t: t.garment, allThings)

def get_hats():
    return filter(lambda t: t.headgear, get_clothes())

I'm concerned that I'm iterating over the clothes list when in fact it has already been iterated over. I also want to keep the two filter operations separate, as they belong to two different classes, and I do not want to duplicate the first lambda function in the hats class.

# efficient but duplication of code
def get_clothes():
    return filter(lambda t: t.garment, allThings)

def get_hats():
    return filter(lambda t: t.headgear and t.garment, allThings)

I have been investigating generator functions, as they seemed like the way to go, but I haven't as yet figure out how.

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If you're worried about performance, did you test performance? – Karl Knechtel Apr 27 '12 at 11:46
I would have if I thought it was not obvious. – cammil Apr 27 '12 at 11:58
"obvious" is a dangerous word when it comes to performance. – Karl Knechtel Apr 27 '12 at 11:59
thanks for the heads-up – cammil Apr 27 '12 at 12:04
tested: from my crude test where clothes are about 30% of the full list, the reduction in execution time is about 40%. Pretty solid. – cammil Apr 27 '12 at 12:12

3 Answers 3

up vote 21 down vote accepted

First of all using filter/lambda combination is going to be deprecated. Current functional programming style is described in Python Functional Programming HOWTO.

Secondly, if you concerned with efficiency, rather than construct lists, you should return generators. In this case they are simple enough to use generator expressions.

def get_clothes():
    return (t for t in allThings if t.garment)

def get_hats():
    return (t for t in get_clothes() if t.headgear)

Or if you'd prefer, true generators (allegedly more pythonic):

def get_clothes():
    for t in allThings:
       if t.garment:
           yield t

def get_hats():
    for t in get_clothes():
        if t.headgear:
            yield t

If for some reason, sometimes you need list rather than iterator, you can construct list by simple casting:

hats_list = list(get_hats())

Note, that above will not construct list of clothes, thus efficiency is close to your duplicate code version.

share|improve this answer
Damnation, vartec. Take my upvotes. – Li-aung Yip Apr 27 '12 at 11:38
@Li-aungYip: sorry dude ;-) – vartec Apr 27 '12 at 11:44
1) The filter/lambda combination is not deprecated. 2) PEP 8 advises against returning an generator expression -- those should be consumed in the same scope whether they were created -- used a regular generator instead. 3). If a list is what is needed, the OP should use a list comprehension rather than list wrapped around a genexp. – Raymond Hettinger Apr 27 '12 at 12:08
@RaymondHettinger: 1) it's not yet formally deprecated because of strong opposition, but it's been considered for dropping for more than 7 years now. 2) haven't really found anything relevant to that in PEP-8 3) if and only if he always needs list. – vartec Apr 27 '12 at 12:25
@vartec: one example why returning a genexp is dangerous: Your get_hats etc should really be generators themselves (for t... if t.headgear: yield t) rather than return genexps. // Seems already fixed. – georg Apr 27 '12 at 12:33

To do it in one pass only (pseudocode):

clothes = list()
hats = list()
for thing in things:
    if thing is a garment:
        if thing is a hat:

To do it in one big pass and one smaller pass (list comprehensions):

clothes = [ x for x in things if x is garment ]
hats = [ x for x in clothes if x is hat ]

If you want to create the entire list there's no point using a generator expression for lazy evaluation, because you're not going to be lazy.

If you only want to deal with a few things at a time, or if you're memory-constrained, use @vartec's generator solution.

share|improve this answer
you may want to fix thing in things usage – okm Apr 27 '12 at 11:40
@okm: Not seeing it, sorry - can you elaborate? – Li-aung Yip Apr 27 '12 at 13:31
I mean [thing in clothes if thing is hat] is not syntactic-correct, isn't it? – okm Apr 27 '12 at 13:35
@okm: Whups, you're right. Thanks! – Li-aung Yip Apr 27 '12 at 13:39

I was looking for similar filtering of lists but wanted to have a slightly different format to what was presented here.

The get_hats() call above is good but limited in its reuse. I was looking for something more like get_hats(get_clothes(all_things)), where you can specify a source (all_things), and then as few or as many levels of filters get_hats(), get_clothes() as you want.

I found a way to do that with generators:

def get_clothes(in_list):
    for item in in_list:
        if item.garment:
            yield item

def get_hats(in_list):
    for item in in_list:
        if item.headgear:
            yield item

This can then be called by:


I tested the original solutions, vartec's solution and this additional solution to see the efficiency, and was somewhat surprised by the results. Code as follows:


class Thing:
    def __init__(self):
        self.garment = False
        self.headgear = False

all_things = [Thing() for i in range(1000000)]

for i, thing in enumerate(all_things):
    if i % 2 == 0:
        thing.garment = True
    if i % 4 == 0:
        thing.headgear = True

Original solutions:

def get_clothes():
    return filter(lambda t: t.garment, all_things)

def get_hats():
    return filter(lambda t: t.headgear, get_clothes())

def get_clothes2():
    return filter(lambda t: t.garment, all_things)

def get_hats2():
    return filter(lambda t: t.headgear and t.garment, all_things)

My solution:

def get_clothes3(in_list):
    for item in in_list:
        if item.garment:
            yield item

def get_hats3(in_list):
    for item in in_list:
        if item.headgear:
            yield item

vartec's solution:

def get_clothes4():
    for t in all_things:
       if t.garment:
           yield t

def get_hats4():
    for t in get_clothes4():
        if t.headgear:
            yield t

Timing code:

import timeit

print 'get_hats()'
print timeit.timeit('get_hats()', 'from __main__ import get_hats', number=1000)

print 'get_hats2()'
print timeit.timeit('get_hats2()', 'from __main__ import get_hats2', number=1000)

print '[x for x in get_hats3(get_clothes3(all_things))]'
print timeit.timeit('[x for x in get_hats3(get_clothes3(all_things))]',
                    'from __main__ import get_hats3, get_clothes3, all_things',

print '[x for x in get_hats4()]'
print timeit.timeit('[x for x in get_hats4()]',
                    'from __main__ import get_hats4', number=1000)


[x for x in get_hats3(get_clothes3(all_things))]
[x for x in get_hats4()]

The generator expressions appear to be slightly faster, the difference in time between my and vartec's solutions are probably just noise. But I prefer the flexibility of being able to apply whatever filters are required in whatever order.

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