I am searching for a middle ground between Python's zip and zip_longest functions (from the itertools module), that exhausts all given iterators, but does not fill in anything. So, for example, it should transpose tuples like so:

(11, 12, 13    ),        (11, 21, 31, 41),
(21, 22, 23, 24),  -->   (12, 22, 32, 42),
(31, 32        ),        (13, 23,     43),
(41, 42, 43, 44),        (    24,     44)

(Spaces added for nicer graphical alignment.)

I managed to compose a crude a solution by cleaning out the fillvalues after zip_longest.

def zip_discard(*iterables, sentinel = object()):
    return map(
            partial(filter, partial(is_not, sentinel)), 
            zip_longest(*iterables, fillvalue=sentinel))

Is there a way to do this without introducing the sentinels to begin with? Can this be improved using yield? Which approach seems most efficient?

  • I am not sure whether this question is on-topic on Stack Overflow. Don't you think it would be better if you posted it on Code Review? Commented Jun 27, 2016 at 13:24
  • I decided for Stack Overflow because this question asks for the most efficient way and Python answers here often include timing comparisons. But as I was unsure myself, I would not object to a migration.
    – XZS
    Commented Jun 27, 2016 at 13:31
  • are you looking for a generator, or iterator, solution? Commented Jun 27, 2016 at 17:34
  • Both would do, I only require something iterable for further processing.
    – XZS
    Commented Jun 27, 2016 at 18:42
  • 2
    When working with sentinels you want to compare object identity, so you should use op.is_not instead of op.ne.
    – Bakuriu
    Commented Jun 27, 2016 at 19:51

3 Answers 3


Both zip and zip_longest were designed to always generate tuples of equal length, you can define your own generator that doesn't care about the len with something like this:

def _one_pass(iters):
    for it in iters:
            yield next(it)
        except StopIteration:
            pass #of some of them are already exhausted then ignore it.

def zip_varlen(*iterables):
    iters = [iter(it) for it in iterables]
    while True: #broken when an empty tuple is given by _one_pass
        val = tuple(_one_pass(iters))
        if val:
            yield val

If the data being zipped together is fairly large then skipping the exhausted iterators every time can be expensive, it may be more efficient to remove the finished iterators from iters in the _one_pass function like this:

def _one_pass(iters):
    i = 0
    while i<len(iters):
            yield next(iters[i])
        except StopIteration:
            del iters[i]

both of these versions would remove the need to create intermediate results or use temporary filler values.


You approach is good. I think using a sentinel is elegant. I might be considered a bit more pythonic to use a nested generator expression:

def zip_discard_gen(*iterables, sentinel=object()):
    return ((entry for entry in iterable if entry is not sentinel)
            for iterable in zip_longest(*iterables, fillvalue=sentinel))

This needs fewer imports because there is no need for partial() or ne().

It is a bit faster too:

data = [(11, 12, 13    ),
        (21, 22, 23, 24),
        (31, 32        ),
        (41, 42, 43, 44)]

%timeit [list(x) for x in zip_discard(*data)]  
10000 loops, best of 3: 17.5 µs per loop

%timeit [list(x) for x in zip_discard_gen(*data)]
100000 loops, best of 3: 14.2 µs per loop


A list comprehension version is a bit faster:

def zip_discard_compr(*iterables, sentinel=object()):
    return [[entry for entry in iterable if entry is not sentinel]
            for iterable in zip_longest(*iterables, fillvalue=sentinel)]


%timeit zip_discard_compr(*data)
100000 loops, best of 3: 6.73 µs per loop

A Python 2 version:

from itertools import izip_longest

SENTINEL = object()

def zip_discard_compr(*iterables):
    sentinel = SENTINEL
    return [[entry for entry in iterable if entry is not sentinel]
            for iterable in izip_longest(*iterables, fillvalue=sentinel)]


This version returns the same data structure as zip_varlen by Tadhg McDonald-Jensen:

def zip_discard_gen(*iterables, sentinel=object()):
    return (tuple([entry for entry in iterable if entry is not sentinel])
            for iterable in zip_longest(*iterables, fillvalue=sentinel))

It is about twice as fast:

%timeit list(zip_discard_gen(*data))
100000 loops, best of 3: 9.37 µs per loop

%timeit list(zip_varlen(*data))
10000 loops, best of 3: 18 µs per loop
  • I like this, but on my system (i5 haswell laptop, python 2.7), the list version is a little faster (6.22 uS vs. 6.62 uS). also, zip_discard, since it returns lists, doesn't really require casting to list, so with that out it reduces to 5.61 uS, which is a little faster again. note that I did have to modify the code slightly - python 2.7 didn't like *data before the sentinel keyword arg, which would make it awkward to use... but sentinel could easily be module-global (to where this is defined) without any ill effects... Commented Jun 27, 2016 at 17:43
  • Just changing the () into [] turns the generator expressions into list comprehensions. No need anymore to convert the result into a list of lists. Commented Jun 27, 2016 at 18:28
  • @CorleyBrigman Added a list comprehension version. It is about twice as fast if you are going for the list of lists anyway. Commented Jun 27, 2016 at 18:33
  • Great solution!
    – MarkS
    Commented Jun 18, 2018 at 20:01
  • I'd be curious about scalability, if the list of iterators was random.sample([range(i) for i in range(1e6)], 1e6) to have 1 million iterators that go up to 1 million elements whether my version that drops iterators as they finish would be faster. for smaller lists obviously the difference in doing the _one_pass in python vs zip_longest which is done in C makes all the difference. Commented Dec 5, 2023 at 20:06

Trying to solve this without a sentinel (not even in the interim) yielded some interesting insights.

m = (
  (11, 12, 13,       ),
  (21, 22, 23, 24, 25),
  (31, 32,           ),
  (41, 42, 43, 44,   ),

result = [[r[i] for r in m if r[i:i+1]] for i in range(0, max(len(r) for r in m))]

First insight, I've been using python for long enough that I'll constantly question the use of indices. There is always a better way. ALWAYS.

Second insight, a slice returns an empty tuple where ref by index would cause an IndexError. Replacing r[i:i+1] with len(r) < i would work in this example.

So what do I think is the better way? Using a fillvalue and then filter to strip out the value if you must.

t = tuple(zip_longest(*m))
t_clean = [list(filter(None, r)) for r in t]
m_again = tuple(zip_longest(*t))

The zip transposing idiom is not easy to grasp but worth learning. Transposing again yields the original which can't be done without a missing placeholder. Can also "skip" values. Considering we're all putting in spaces to make the matrix legible, we all want the placeholders there. If m was created with the infill value it would equal m_again, which is a nice property. Prioritise developer performance, the real bottle neck.

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