Is there an efficient way to know how many elements are in an iterator in Python, in general, without iterating through each and counting?

15 Answers 15


No. It's not possible.


import random

def gen(n):
    for i in xrange(n):
        if random.randint(0, 1) == 0:
            yield i

iterator = gen(10)

Length of iterator is unknown until you iterate through it.

  • 12
    Alternately, def gen(): yield random.randint(0, 1) is infinite, so you will never be able to find a length by iterating through it. – tgray Jul 27 '10 at 17:15
  • 1
    So, to validate the obvious: the best way to get the "size" of an iterator is simply to count the number of times you've gone through the iteration, right? In this case, it'd be numIters = 0 ; while iterator: numIters +=1? – Mike Williamson Mar 11 '14 at 23:33
  • 1
    @tgray: while True: is missing in the code. – jfs Jun 23 '15 at 20:22

This code should work:

>>> iter = (i for i in range(50))
>>> sum(1 for _ in iter)

Although it does iterate through each item and count them, it is the fastest way to do so.

It also works for when the iterator has no item:

>>> sum(1 for _ in range(0))
  • 7
    Looks to me like this does exactly what OP doesn't want to do: iterate through the iterator and count. – Adam Crossland Jul 27 '10 at 16:38
  • 30
    This is a space-efficient way of counting the elements in an iterable – Captain Lepton Apr 16 '12 at 12:32
  • 8
    While this isn't what OP wants, given that his question doesn't have an answer, this answer avoids instantiation of a list, and it is empirically faster by a constant than the reduce method listed above. – Phillip Nordwall Aug 2 '12 at 15:27
  • 3
    Can't help: is the _ reference to Perl's $_? :) – Alois Mahdal Sep 23 '13 at 16:44
  • 13
    @AloisMahdal No. It is conventional in Python to use the name _ for a dummy variable whose value you don't care about. – Taymon Sep 30 '13 at 3:46

No, any method will require you to resolve every result. You can do

iter_length = len(list(iterable))

but running that on an infinite iterator will of course never return. It also will consume the iterator and it will need to be reset if you want to use the contents.

Telling us what real problem you're trying to solve might help us find you a better way to accomplish your actual goal.

Edit: Using list() will read the whole iterable into memory at once, which may be undesirable. Another way is to do

sum(1 for _ in iterable)

as another person posted. That will avoid keeping it in memory.

  • the problem is I am reading a file with "pysam" that has millions of entries. Pysam returns an iterator. To compute a certain quantity, I need to know how many reads are in the file, but I don't need to read each one... that's the issue. – user248237dfsf Jul 27 '10 at 16:42
  • 6
    I'm not pysam user, but It's probably reading file "lazy". It make sense because you don't want to have big file in memory. So if you must know no. of records before iteration, only way is create two iterators, and use first one to count elements and second one to read file. BTW. Don't use len(list(iterable)) it will load all data to memory. You can use: reduce(lambda x, _: x+1, iterable, 0). Edit: Zonda333 code with sum is also good. – Tomasz Wysocki Jul 27 '10 at 16:48
  • 1
    @user248237: why do you say you need to know how many entries are available to compute a certain quantity ? You could just read a fixed amount of them and manage the case when there is less than that fixed amount (really simple to do using iterslice). Is there another reason you have to read all entries ? – kriss Jul 27 '10 at 16:59
  • 1
    @Tomasz Note that reduce is deprecated, and will be gone in Python 3 and up. – Wilduck Jul 27 '10 at 18:39
  • 7
    @Wilduck: It's not gone, just moved to functools.reduce – Daenyth Jul 27 '10 at 18:54

You cannot (except the type of a particular iterator implements some specific methods that make it possible).

Generally, you may count iterator items only by consuming the iterator. One of probably the most efficient ways:

import itertools
from collections import deque

def count_iter_items(iterable):
    Consume an iterable not reading it into memory; return the number of items.
    counter = itertools.count()
    deque(itertools.izip(iterable, counter), maxlen=0)  # (consume at C speed)
    return next(counter)

(For Python 3.x replace itertools.izip with zip).

  • 2
    +1: in a time comparison with sum(1 for _ in iterator), this was almost twice as fast. – Augusto Men May 13 '14 at 18:56

Kinda. You could check the __length_hint__ method, but be warned that (at least up to Python 3.4, as gsnedders helpfully points out) it's a undocumented implementation detail (following message in thread), that could very well vanish or summon nasal demons instead.

Otherwise, no. Iterators are just an object that only expose the next() method. You can call it as many times as required and they may or may not eventually raise StopIteration. Luckily, this behaviour is most of the time transparent to the coder. :)

  • 3
    This is no longer the case, as of PEP 424 and Python 3.4. __length_hint__ is now documented, but it is a hint and makes no guarantees of accuracy. – gsnedders Jul 18 '14 at 11:47

An iterator is just an object which has a pointer to the next object to be read by some kind of buffer or stream, it's like a LinkedList where you don't know how many things you have until you iterate through them. Iterators are meant to be efficient because all they do is tell you what is next by references instead of using indexing (but as you saw you lose the ability to see how many entries are next).

  • An iterator is nothing like a linked list. An object returned from an iterator does not point to the next object, and these objects are not (necessarily) stored in memory. Rather, it can yield object one after the other, based on whatever inner logic (which could be, but does not have to be, based on a stored list). – Tom May 30 '13 at 20:09
  • @Tom I was using LinkedList as an example mostly in that you don't know how much you have since you only know what's next in a sense (if there is something). I apologize if my wording seems a little off or if I implied that they are one in the same. – Jesus Ramos May 30 '13 at 20:27

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


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

The actual count() implementation is as follows:

def count(iterable):
    if hasattr(iterable, '__len__'):
        return len(iterable)

    d = collections.deque(enumerate(iterable, 1), maxlen=1)
    return d[0][0] if d else 0

Regarding your original question, the answer is still that there is no way in general to know the length of an iterator in Python.

Given that you question is motivated by an application of the pysam library, I can give a more specific answer: I'm a contributer to PySAM and the definitive answer is that SAM/BAM files do not provide an exact count of aligned reads. Nor is this information easily available from a BAM index file. The best one can do is to estimate the approximate number of alignments by using the location of the file pointer after reading a number of alignments and extrapolating based on the total size of the file. This is enough to implement a progress bar, but not a method of counting alignments in constant time.


There are two ways to get the length of "something" on a computer.

The first way is to store a count - this requires anything that touches the file/data to modify it (or a class that only exposes interfaces -- but it boils down to the same thing).

The other way is to iterate over it and count how big it is.


A quick benchmark:

import collections
import itertools

def count_iter_items(iterable):
    counter = itertools.count()
    collections.deque(itertools.izip(iterable, counter), maxlen=0)
    return next(counter)

def count_lencheck(iterable):
    if hasattr(iterable, '__len__'):
        return len(iterable)

    d = collections.deque(enumerate(iterable, 1), maxlen=1)
    return d[0][0] if d else 0

def count_sum(iterable):           
    return sum(1 for _ in iterable)

iter = lambda y: (x for x in xrange(y))

%timeit count_iter_items(iter(1000))
%timeit count_lencheck(iter(1000))
%timeit count_sum(iter(1000))

The results:

10000 loops, best of 3: 35.4 µs per loop
10000 loops, best of 3: 40.2 µs per loop
10000 loops, best of 3: 50.7 µs per loop

I.e. the simple count_iter_items is the way to go.

  • After the first time you've called count_iter_items(iter), you've already exhausted that iterator. Thus all the remaining calls to the three functions are just dealing with empty iterator. – 平芜泫 May 23 '18 at 8:26
  • Shame on me. Fixed now! – Michael Sep 6 '18 at 11:59

So, for those who would like to know the summary of that discussion. The final top scores for counting a 50 million-lengthed generator expression using:

  • len(list(gen)),
  • len([_ for _ in gen]),
  • sum(1 for _ in gen),
  • ilen(gen) (from more_itertool),
  • reduce(lambda c, i: c + 1, gen, 0),

sorted by performance of execution (including memory consumption), will make you surprised:


1: test_list.py:8: 0.492 KiB

gen = (i for i in data*1000); t0 = monotonic(); len(list(gen))

('list, sec', 1.9684218849870376)

2: test_list_compr.py:8: 0.867 KiB

gen = (i for i in data*1000); t0 = monotonic(); len([i for i in gen])

('list_compr, sec', 2.5885991149989422)

3: test_sum.py:8: 0.859 KiB

gen = (i for i in data*1000); t0 = monotonic(); sum(1 for i in gen); t1 = monotonic()

('sum, sec', 3.441088170016883)

4: more_itertools/more.py:413: 1.266 KiB

d = deque(enumerate(iterable, 1), maxlen=1)

test_ilen.py:10: 0.875 KiB
gen = (i for i in data*1000); t0 = monotonic(); ilen(gen)

('ilen, sec', 9.812256851990242)

5: test_reduce.py:8: 0.859 KiB

gen = (i for i in data*1000); t0 = monotonic(); reduce(lambda counter, i: counter + 1, gen, 0)

('reduce, sec', 13.436614598002052) ```

So, len(list(gen)) is the most frequent and less memory consumable


It's common practice to put this type of information in the file header, and for pysam to give you access to this. I don't know the format, but have you checked the API?

As others have said, you can't know the length from the iterator.


This is against the very definition of an iterator, which is a pointer to an object, plus information about how to get to the next object.

An iterator does not know how many more times it will be able to iterate until terminating. This could be infinite, so infinity might be your answer.

  • It's not violating anything, and there is nothing wrong applying prior knowledge when using an iterator. There are zillions of iterators around, where you know, that the number of elements is limited. Think about simply filtering a list, you can easily give the maximum length, you just don't really know how many of the elements actually fit your filter condition. Wanting to know the number of matching elements is a valid application, not violating any mysterical idea of an iterator. – Michael Jun 12 '17 at 13:17
def count_iter(iter):
    sum = 0
    for _ in iter: sum += 1
    return sum

Although it's not possible in general to do what's been asked, it's still often useful to have a count of how many items were iterated over after having iterated over them. For that, you can use jaraco.itertools.Counter or similar. Here's an example using Python 3 and rwt to load the package.

$ rwt -q jaraco.itertools -- -q
>>> import jaraco.itertools
>>> items = jaraco.itertools.Counter(range(100))
>>> _ = list(counted)
>>> items.count
>>> import random
>>> def gen(n):
...     for i in range(n):
...         if random.randint(0, 1) == 0:
...             yield i
>>> items = jaraco.itertools.Counter(gen(100))
>>> _ = list(counted)
>>> items.count

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