104

Often enough, I've found the need to process a list by pairs. I was wondering which would be the pythonic and efficient way to do it, and found this on Google:

pairs = zip(t[::2], t[1::2])

I thought that was pythonic enough, but after a recent discussion involving idioms versus efficiency, I decided to do some tests:

import time
from itertools import islice, izip

def pairs_1(t):
    return zip(t[::2], t[1::2]) 

def pairs_2(t):
    return izip(t[::2], t[1::2]) 

def pairs_3(t):
    return izip(islice(t,None,None,2), islice(t,1,None,2))

A = range(10000)
B = xrange(len(A))

def pairs_4(t):
    # ignore value of t!
    t = B
    return izip(islice(t,None,None,2), islice(t,1,None,2))

for f in pairs_1, pairs_2, pairs_3, pairs_4:
    # time the pairing
    s = time.time()
    for i in range(1000):
        p = f(A)
    t1 = time.time() - s

    # time using the pairs
    s = time.time()
    for i in range(1000):
        p = f(A)
        for a, b in p:
            pass
    t2 = time.time() - s
    print t1, t2, t2-t1

These were the results on my computer:

1.48668909073 2.63187503815 1.14518594742
0.105381965637 1.35109519958 1.24571323395
0.00257992744446 1.46182489395 1.45924496651
0.00251388549805 1.70076990128 1.69825601578

If I'm interpreting them correctly, that should mean that the implementation of lists, list indexing, and list slicing in Python is very efficient. It's a result both comforting and unexpected.

Is there another, "better" way of traversing a list in pairs?

Note that if the list has an odd number of elements then the last one will not be in any of the pairs.

Which would be the right way to ensure that all elements are included?

I added these two suggestions from the answers to the tests:

def pairwise(t):
    it = iter(t)
    return izip(it, it)

def chunkwise(t, size=2):
    it = iter(t)
    return izip(*[it]*size)

These are the results:

0.00159502029419 1.25745987892 1.25586485863
0.00222492218018 1.23795199394 1.23572707176

Results so far

Most pythonic and very efficient:

pairs = izip(t[::2], t[1::2])

Most efficient and very pythonic:

pairs = izip(*[iter(t)]*2)

It took me a moment to grok that the first answer uses two iterators while the second uses a single one.

To deal with sequences with an odd number of elements, the suggestion has been to augment the original sequence adding one element (None) that gets paired with the previous last element, something that can be achieved with itertools.izip_longest().

Finally

Note that, in Python 3.x, zip() behaves as itertools.izip(), and itertools.izip() is gone.

11
  • RE: the "right way" -- there isn't a "right" way! It depends on the use case. – Andrew Jaffe Jan 7 '11 at 17:45
  • @Andrew Jaffe I gave the criteria for "best" in this case: efficient, and pythonic. – Apalala Jan 7 '11 at 18:51
  • @Apalala: I mean that the outcome of having an odd number depends on the use. For example: you could just leave off the last element, or add a specific known dummy element, or duplicate the last one – Andrew Jaffe Jan 7 '11 at 19:18
  • 2
    @Apalala: because you're using some mumbo-jumbo instead of the timeit module. – SilentGhost Jan 8 '11 at 22:38
  • 1
55

My favorite way to do it:

from itertools import izip

def pairwise(t):
    it = iter(t)
    return izip(it,it)

# for "pairs" of any length
def chunkwise(t, size=2):
    it = iter(t)
    return izip(*[it]*size)

When you want to pair all elements you obviously might need a fillvalue:

from itertools import izip_longest
def blockwise(t, size=2, fillvalue=None):
    it = iter(t)
    return izip_longest(*[it]*size, fillvalue=fillvalue)
7
  • The first (pairwise) function seems to be missing the cloning and advancing of the second iterator. See the itertools recipes section. – Apalala Jan 7 '11 at 18:40
  • @Apalala: zip does advance the same iterator twice. – Jochen Ritzel Jan 7 '11 at 18:55
  • Of course, you're correct, and pairwise is the most efficient so far, I don't know why. – Apalala Jan 7 '11 at 19:05
  • 1
    I love this solution: it's lazy, and it exploits the statefulness of iterators to great effect. You could even make it a one-liner, though perhaps at the expense of readability: izip(*[iter(t)]*size) – Channing Moore Dec 18 '14 at 16:56
  • for your second solution, wouldn't you want to avoid creating a list if going after performance? – max Jul 24 '16 at 23:26
44

I'd say that your initial solution pairs = zip(t[::2], t[1::2]) is the best one because it is easiest to read (and in Python 3, zip automatically returns an iterator instead of a list).

To ensure that all elements are included, you could simply extend the list by None.

Then, if the list has an odd number of elements, the last pair will be (item, None).

>>> t = [1,2,3,4,5]
>>> t.append(None)
>>> zip(t[::2], t[1::2])
[(1, 2), (3, 4), (5, None)]
>>> t = [1,2,3,4,5,6]
>>> t.append(None)
>>> zip(t[::2], t[1::2])
[(1, 2), (3, 4), (5, 6)]
6

I start with small disclaimer - don't use the code below. It's not Pythonic at all, I wrote just for fun. It's similar to @THC4k pairwise function but it uses iter and lambda closures. It doesn't use itertools module and doesn't support fillvalue. I put it here because someone might find it interesting:

pairwise = lambda t: iter((lambda f: lambda: (f(), f()))(iter(t).next), None)
4

As far as most pythonic goes, I'd say the recipes supplied in the python source docs (some of which look a lot like the answers that @JochenRitzel provided) is probably your best bet ;)

def grouper(iterable, n, fillvalue=None):
    "Collect data into fixed-length chunks or blocks"
    # grouper('ABCDEFG', 3, 'x') --> ABC DEF Gxx
    args = [iter(iterable)] * n
    return izip_longest(fillvalue=fillvalue, *args)

On modern python you just have to use zip_longest(*args, fillvalue=fillvalue) according to the corresponding doc page.

2

Is there another, "better" way of traversing a list in pairs?

I can't say for sure but I doubt it: Any other traversal would include more Python code which has to be interpreted. The built-in functions like zip() are written in C which is much faster.

Which would be the right way to ensure that all elements are included?

Check the length of the list and if it's odd (len(list) & 1 == 1), copy the list and append an item.

2
>>> my_list = [1,2,3,4,5,6,7,8,9,10]
>>> my_pairs = list()
>>> while(my_list):
...     a = my_list.pop(0); b = my_list.pop(0)
...     my_pairs.append((a,b))
... 
>>> print(my_pairs)
[(1, 2), (3, 4), (5, 6), (7, 8), (9, 10)]
2
  • IndexError: pop from empty list – HQuser May 18 '19 at 11:48
  • @HQuser Sure, you'll get that error if you have an odd number of items in the list. You have to know for sure that you have pairs or check for this error condition. – WaterMolecule Oct 22 '19 at 19:02
2

Only do it:

>>> l = [1, 2, 3, 4, 5, 6]
>>> [(x,y) for x,y in zip(l[:-1], l[1:])]
[(1, 2), (2, 3), (3, 4), (4, 5), (5, 6)]
1
  • Your code is equivalent to the simpler list(zip(l, l[1:])), and it doesn't split the list into pairs. – Apalala Jul 2 '20 at 21:01
0

Here is an example of creating pairs/legs by using a generator. Generators are free from stack limits

def pairwise(data):
    zip(data[::2], data[1::2])

Example:

print(list(pairwise(range(10))))

Output:

[(0, 1), (2, 3), (4, 5), (6, 7), (8, 9)]
5
  • Comparison of execution time? – Alan May 29 '20 at 19:12
  • The list is not broken into pairs, as most numbers in the original list appears in two tuples. The expected output is [(0, 1), (2, 3), (4, 5).... – Apalala Jul 20 '20 at 20:51
  • @Apalala thank you for pointing out. I fixed the code to provide the right output – Vlad Bezden Jul 21 '20 at 20:54
  • zip() already returns a generator in Python 3.x, @VladBezden – Apalala Jul 26 '20 at 12:02
  • if the list length is not even, the latest element will be dropped – Daniil Okhlopkov Nov 7 '20 at 10:02
-1

Just in case someone needs the answer algorithm-wise, here it is:

>>> def getPairs(list):
...     out = []
...     for i in range(len(list)-1):
...         a = list.pop(0)
...         for j in a:
...             out.append([a, j])
...     return b
>>> 
>>> k = [1, 2, 3, 4]
>>> l = getPairs(k)
>>> l
[[1, 2], [1, 3], [1, 4], [2, 3], [2, 4], [3, 4]]

But take note that your original list will also be reduced to its last element, because you used pop on it.

>>> k
[4]

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