Is there a nice Pythonic way to loop over a list, retuning a pair of elements? The last element should be paired with the first.
So for instance, if I have the list [1, 2, 3], I would like to get the following pairs:
- 1 - 2
- 2 - 3
- 3 - 1
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I'd use a slight modification to the
pairwise recipe from the
def pairwise_circle(iterable): "s -> (s0,s1), (s1,s2), (s2, s3), ... (s<last>,s0)" a, b = itertools.tee(iterable) first_value = next(b, None) return itertools.zip_longest(a, b,fillvalue=first_value)
This will simply keep a reference to the first value and when the second iterator is exhausted,
zip_longest will fill the last place with the first value.
(Also note that it works with iterators like generators as well as iterables like lists/tuples.)
Note that @Barry's solution is very similar to this but a bit easier to understand in my opinion and easier to extend beyond one element.
I would pair
import itertools def circular_pairwise(l): second = itertools.cycle(l) next(second) return zip(l, second)
cycle returns an iterable that yields the values of its argument in order, looping from the last value to the first.
We skip the first value, so it starts at position
1 (rather than
zip it with the original, unmutated list.
zip is good, because it stops when any of its argument iterables are exhausted.
Doing it this way avoids the creation of any intermediate lists:
cycle holds a reference to the original, but doesn't copy it.
zip operates in the same way.
It's important to note that this will break if the input is an
iterator, such as a
file, (or a
zip in python-3), as advancing in one place (through
next(second)) will automatically advance the iterator in all the others. This is easily solved using
itertools.tee, which produces two independently operating iterators over the original iterable:
def circular_pairwise(it): first, snd = itertools.tee(it) second = itertools.cycle(snd) next(second) return zip(first, second)
tee can use large amounts of additional storage, for example, if one of the returned iterators is used up before the other is touched, but as we only ever have one step difference, the additional storage is minimal.
Pairwise circular Python 'for' loop
If you like the accepted answer,
zip(L, L[1:] + L[:1])
you can go much more memory light with semantically the same code using
from itertools import islice, chain #, izip as zip # uncomment if Python 2
And this barely materializes anything in memory beyond the original list (assuming the list is relatively large):
zip(l, chain(islice(l, 1, None), islice(l, None, 1)))
To use, just consume (for example, with a list):
>>> list(zip(l, chain(islice(l, 1, None), islice(l, None, 1)))) [(1, 2), (2, 3), (3, 1)]
This can be made extensible to any width:
def cyclical_window(l, width=2): return zip(*[chain(islice(l, i, None), islice(l, None, i)) for i in range(width)])
>>> l = [1, 2, 3, 4, 5] >>> cyclical_window(l) <itertools.izip object at 0x112E7D28> >>> list(cyclical_window(l)) [(1, 2), (2, 3), (3, 4), (4, 5), (5, 1)] >>> list(cyclical_window(l, 4)) [(1, 2, 3, 4), (2, 3, 4, 5), (3, 4, 5, 1), (4, 5, 1, 2), (5, 1, 2, 3)]
You can also use
tee to avoid making a redundant cycle object:
from itertools import cycle, tee ic1, ic2 = tee(cycle(l)) next(ic2) # must still queue up the next item
>>> [(next(ic1), next(ic2)) for _ in range(10)] [(1, 2), (2, 3), (3, 1), (1, 2), (2, 3), (3, 1), (1, 2), (2, 3), (3, 1), (1, 2)]
This is incredibly efficient, an expected usage of
next, and elegant usage of
cycle directly to
list unless you have saved your work and have time for your computer to creep to a halt as you max out its memory - if you're lucky, after a while your OS will kill the process before it crashes your computer.
Finally, no standard lib imports, but this only works for up to the length of original list (IndexError otherwise.)
>>> [(l[i], l[i - len(l) + 1]) for i in range(len(l))] [(1, 2), (2, 3), (3, 1)]
You can continue this with modulo:
>>> len_l = len(l) >>> [(l[i % len_l], l[(i + 1) % len_l]) for i in range(10)] [(1, 2), (2, 3), (3, 1), (1, 2), (2, 3), (3, 1), (1, 2), (2, 3), (3, 1), (1, 2)]
Amazing how many different ways there are to solve this problem.
Here's one more. You can use the
pairwise recipe but instead of zipping with
chain it with the first element that you already popped off. Don't need to
cycle when we just need a single extra value:
from itertools import chain, izip, tee def pairwise_circle(iterable): a, b = tee(iterable) first = next(b, None) return izip(a, chain(b, (first,)))
I like a solution that does not modify the original list and does not copy the list to temporary storage:
def circular(a_list): for index in range(len(a_list) - 1): yield a_list[index], a_list[index + 1] yield a_list[-1], a_list for x in circular([1, 2, 3]): print x
(1, 2) (2, 3) (3, 1)
I can imagine this being used on some very large in-memory data.
This one will work even if the list
l has consumed most of the system's memory. (If something guarantees this case to be impossible, then zip as posted by chepner is fine)
l.append( l ) for i in range( len(l)-1): pair = l[i],l[i+1] # stuff involving pair del l[-1]
or more generalizably (works for any offset
l[ (i+n)%len(l) ] )
for i in range( len(l)): pair = l[i], l[ (i+1)%len(l) ] # stuff
provided you are on a system with decently fast modulo division (i.e. not some pea-brained embedded system).
There seems to be a often-held belief that indexing a list with an integer subscript is un-pythonic and best avoided. Why?
This is my solution, and it looks Pythonic enough to me:
l = [1,2,3] for n,v in enumerate(l): try: print(v,l[n+1]) except IndexError: print(v,l)
1 2 2 3 3 1
The generator function version:
def f(iterable): for n,v in enumerate(iterable): try: yield(v,iterable[n+1]) except IndexError: yield(v,iterable) >>> list(f([1,2,3])) [(1, 2), (2, 3), (3, 1)]