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If I want the number of items in an iterable without caring about the elements themselves, what would be the pythonic way to get that? Right now, I would define

def ilen(it):
    return sum(itertools.imap(lambda _: 1, it))    # or just map in Python 3

but I understand lambda is close to being considered harmful, and lambda _: 1 certainly isn't pretty.

(The use case of this is counting the number of lines in a text file matching a regex, i.e. grep -c.)

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3  
Please don't use _ as a variable name, because (1) it tends to confuse people, making them think this is some kind of special syntax, (2) collides with _ in the interactive interpreter and (3) collides with the common gettext alias. – Sven Marnach Mar 21 '11 at 22:39
4  
@Sven: I use _ all the time for unused variables (a habit from Prolog and Haskell programming). (1) is a reason for asking this in the first place. I didn't consider (2) and (3), thanks for pointing them out! – Fred Foo Mar 21 '11 at 22:47
1  
duplicated: stackoverflow.com/questions/390852/… – tokland Mar 21 '11 at 22:47
up vote 58 down vote accepted

The usual way is

sum(1 for i in it)
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Method that's meaningfully faster than sum(1 for i in it) when the iterable may be long (and not meaningfully slower when the iterable is short), while maintaining fixed memory overhead behavior (unlike len(list(it))) to avoid swap thrashing and reallocation overhead for larger inputs:

# On Python 2 only, get zip that lazily generates results instead of returning list
from future_builtins import zip

from collections import deque
from itertools import count

def ilen(it):
    # Make a stateful counting iterator
    cnt = count()
    # zip it with the input iterator, then drain until input exhausted at C level
    deque(zip(it, cnt), 0) # cnt must be second zip arg to avoid advancing too far
    # Since count 0 based, the next value is the count
    return next(cnt)

Like len(list(it)) it performs the loop in C code on CPython (deque, count and zip are all implemented in C); avoiding byte code execution per loop is usually the key to performance in CPython.

It's surprisingly difficult to come up with fair test cases for comparing performance (list cheats using __length_hint__ which isn't likely to be available for arbitrary input iterables, itertools functions that don't provide __length_hint__ often have special operating modes that work faster when the value returned on each loop is released freed before the next value is requested, which deque with maxlen=0 will do). The test case I used was to create a generator function that would take an input and return a C level generator that lacked special itertools return container optimizations or __length_hint__, using Python 3.3's yield from:

def no_opt_iter(it):
    yield from it

Then using ipython %timeit magic (substituting different constants for 100):

>>> %%timeit -r5 fakeinput = (0,) * 100
... ilen(no_opt_iter(fakeinput))

When the input isn't large enough that len(list(it)) would cause memory issues, on a Linux box running Python 3.5 x64, my solution takes about 50% longer than def ilen(it): return len(list(it)), regardless of input length.

For the smallest of inputs, the setup costs to call deque/zip/count/next means it takes infinitesimally longer this way than def ilen(it): sum(1 for x in it) (about 200 ns more on my machine for a length 0 input, which is a 33% increase over the simple sum approach), but for longer inputs, it runs in about half the time per additional element; for length 5 inputs, the cost is equivalent, and somewhere in the length 50-100 range, the initial overhead is unnoticeable compared to the real work; the sum approach takes roughly twice as long.

Basically, if memory use matters or inputs don't have bounded size and you care about speed more than brevity, use this solution. If inputs are bounded and smallish, len(list(it)) is probably best, and if they're unbounded, but simplicity/brevity counts, you'd use sum(1 for x in it).

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A short way is:

def ilen(it):
    return len(list(it))

Note that if you are generating a lot of elements (say, tens of thousands or more), then putting them in a list may become a performance issue. However, this is a simple expression of the idea where the performance isn't going to matter for most cases.

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I'd thought of this, but performance does matter as I often process large text files. – Fred Foo Mar 21 '11 at 22:57
6  
As long as you don't run out of memory, this solution is actually quite good performance-wise, since this will do the loop in pure C code -- all the objects have to be generated anyway. Even for big iterators this is faster than sum(1 for i in it) as long as as everything fits into memory. – Sven Marnach Mar 21 '11 at 23:18

I like the cardinality package for this, it is very lightweight and tries to use the fastest possible implementation available depending on the iterable.

Usage:

>>> import cardinality
>>> cardinality.count([1, 2, 3])
3
>>> cardinality.count(i for i in range(500))
500
>>> def gen():
...     yield 'hello'
...     yield 'world'
>>> cardinality.count(gen())
2
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