Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

The documentation for itertools provides a recipe for a pairwise() function, which I've slightly modified below so that it returns (last_item, None) as the final pair:

from itertools import tee, izip_longest

def pairwise_tee(iterable):
    a, b = tee(iterable)
    next(b, None)
    return izip_longest(a, b)

However, it seemed to me that using tee() might be overkill (given that it's only being used to provide one step of look-ahead), so I tried writing an alternative that avoids it:

def pairwise_zed(iterator):
    a = next(iterator)
    for b in iterator:
        yield a, b
        a = b
    yield a, None

Note: it so happens that I know my input will be an iterator for my use case; I'm aware that the function above won't work with a regular iterable. The requirement to accept an iterator is also why I'm not using something like izip_longest(iterable, iterable[1:]), by the way.

Testing both functions for speed gave the following results in Python 2.7.3:

>>> import random, string, timeit
>>> for length in range(0, 61, 10):
...     text = "".join(random.choice(string.ascii_letters) for n in range(length))
...     for variant in "tee", "zed":
...         test_case = "list(pairwise_%s(iter('%s')))" % (variant, text)
...         setup = "from __main__ import pairwise_%s" % variant
...         result = timeit.repeat(test_case, setup=setup, number=100000)
...         print "%2d %s %r" % (length, variant, result)
...     print
 0 tee [0.4337780475616455, 0.42563915252685547, 0.42760396003723145]
 0 zed [0.21209311485290527, 0.21059393882751465, 0.21039700508117676]

10 tee [0.4933490753173828, 0.4958930015563965, 0.4938509464263916]
10 zed [0.32074403762817383, 0.32239794731140137, 0.32340312004089355]

20 tee [0.6139161586761475, 0.6109561920166016, 0.6153261661529541]
20 zed [0.49281787872314453, 0.49651598930358887, 0.4942781925201416]

30 tee [0.7470319271087646, 0.7446520328521729, 0.7463529109954834]
30 zed [0.7085139751434326, 0.7165200710296631, 0.7171430587768555]

40 tee [0.8083810806274414, 0.8031280040740967, 0.8049719333648682]
40 zed [0.8273730278015137, 0.8248250484466553, 0.8298079967498779]

50 tee [0.8745720386505127, 0.9205660820007324, 0.878741979598999]
50 zed [0.9760301113128662, 0.9776301383972168, 0.978381872177124]

60 tee [0.9913749694824219, 0.9922418594360352, 0.9938201904296875]
60 zed [1.1071209907531738, 1.1063809394836426, 1.1069209575653076]

... so, it turns out that pairwise_tee() starts to outperform pairwise_zed() when there are about forty items. That's fine, as far as I'm concerned - on average, my input is likely to be under that threshold.

My question is: which should I use? pairwise_zed() looks like it'll be a little faster (and to my eyes is slightly easier to follow), but pairwise_tee() could be considered the "canonical" implementation by virtue of being taken from the official docs (to which I could link in a comment), and will work for any iterable - which isn't a consideration at this point, but I suppose could be later.

I was also wondering about potential gotchas if the iterator is interfered with outside the function, e.g.

for a, b in pairwise(iterator):
    # do something
    q = next(iterator)

... but as far as I can tell, pairwise_zed() and pairwise_tee() behave identically in that situation (and of course it would be a damn fool thing to do in the first place).

share|improve this question
Out of curiousity, why zed? –  katrielalex Nov 23 '12 at 16:13
@katrielalex check out my username :-) –  Zero Piraeus Nov 23 '12 at 16:14

2 Answers 2

up vote 2 down vote accepted

The itertools tee implementation is idiomatic for those experienced with itertools, though I'd be tempted to use islice instead of next to advance the leading iterator.

A disadvantage of your version is that it's less easy to extend it to n-wise iteration as your state is stored in local variables; I'd be tempted to use a deque:

def pairwise_deque(iterator, n=2):
    it = chain(iterator, repeat(None, n - 1))
    d = collections.deque(islice(it, n - 1), maxlen=n)
    for a in it:
      yield tuple(d)

A useful idiom is calling iter on the iterator parameter; this is an easy way to ensure your function works on any iterable.

share|improve this answer
I like the generalisation ... a nit, though: when there's only one item in the itera(tor|ble), pairwise_deque() yields no items, whereas pairwise_zed() and pairwise_tee() correctly (for my purposes) yield (lonely_item, None). –  Zero Piraeus Nov 23 '12 at 16:46
@ZeroPiraeus good point; fixed (though using repeat and chain). –  ecatmur Nov 23 '12 at 17:15

This is a subjective question; both versions are fine.

I would use tee, because it looks simpler to me: I know what tee does, so the first is immediately obvious, whereas with the second I have to think a little about the order in which you overwrite a at the end of each loop. The timings are small enough as to be probably irrelephant, but you're the judge of that.

Regarding your other question, from the tee docs:

Once tee() has made a split, the original iterable should not be used anywhere else; otherwise, the iterable could get advanced without the tee objects being informed.

share|improve this answer

Your Answer


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.