# Iterate over pairs in a list (circular fashion) in Python

The problem is easy, I want to iterate over each element of the list and the next one in pairs (wrapping the last one with the first).

I've thought about two unpythonic ways of doing it:

``````def pairs(lst):
n = len(lst)
for i in range(n):
yield lst[i],lst[(i+1)%n]
``````

and:

``````def pairs(lst):
return zip(lst,lst[1:]+[lst[:1]])
``````

expected output:

``````>>> for i in pairs(range(10)):
print i

(0, 1)
(1, 2)
(2, 3)
(3, 4)
(4, 5)
(5, 6)
(6, 7)
(7, 8)
(8, 9)
(9, 0)
>>>
``````

any suggestions about a more pythonic way of doing this? maybe there is a predefined function out there I haven't heard about?

also a more general n-fold (with triplets, quartets, etc. instead of pairs) version could be interesting.

• Your first solution is good enough! May 26 '11 at 13:09
• In the second version, change `lst[0]` to `lst[:1]` to make it work for an empty sequence. The code becomes more symmetrical, too. Apr 20 '12 at 4:40

``````def pairs(lst):
i = iter(lst)
first = prev = item = i.next()
for item in i:
yield prev, item
prev = item
yield item, first
``````

Works on any non-empty sequence, no indexing required.

• I like the stream quality to it. And the use of iter() is polished. Aug 10 '09 at 22:08
• @Darius, if you need to support empty seq's, use `next(i, sentinel)` in lieu of the old-fashioned `i.next()`, after setting `sentinel = object()`; and, `if first is sentinel: return` just before the `for`. Aug 11 '09 at 1:51
• @Darius: I have clarified that the sequence must be non-empty. It's debatable what it should do for an empty sequence: version 1 of the OP yields an empty sequence, and version two raises IndexError. Aug 11 '09 at 3:35
• Crashes on a 1-element sequence: after calling `i.next()` the sequence is empty, so the loop doesn't bind `item`, so `yield item, first` raises an `UnboundLocalError`. Feb 19 '12 at 23:10
• For python 3: replace `i.next()` with `next(i)` and you're all set. And it actually also works on python 2.
– jojo
Oct 23 '18 at 11:53

I've coded myself the tuple general versions, I like the first one for it's ellegant simplicity, the more I look at it, the more Pythonic it feels to me... after all, what is more Pythonic than a one liner with zip, asterisk argument expansion, list comprehensions, list slicing, list concatenation and "range"?

``````def ntuples(lst, n):
return zip(*[lst[i:]+lst[:i] for i in range(n)])
``````

The itertools version should be efficient enough even for large lists...

``````from itertools import *
def ntuples(lst, n):
return izip(*[chain(islice(lst,i,None), islice(lst,None,i)) for i in range(n)])
``````

And a version for non-indexable sequences:

``````from itertools import *
def ntuples(seq, n):
iseq = iter(seq)
curr = head = tuple(islice(iseq, n))
yield curr
curr = curr[1:] + (x,)
``````

Anyway, thanks everybody for your suggestions! :-)

• Your first answer (in your question) is a million times easier to understand than either of these. That makes it much more pythonic in my book :-/ Aug 10 '09 at 22:48
• try this: "for a in ntuples(count(), 3): print a;" I think you need to use itertools.tee() to get this to work. Aug 10 '09 at 23:05
• count is not an indexable sequence, so it's normal it doesn't work with this method that uses slices extensively... Mar 3 '10 at 15:40
• Hoho, got to love the sarcasm! Aug 21 '10 at 14:30

I, as always, like tee:

``````from itertools import tee, izip, chain

def pairs(iterable):
a, b = tee(iterable)
return izip(a, chain(b, [next(b)]))
``````

This might be satisfactory:

``````def pairs(lst):
for i in range(1, len(lst)):
yield lst[i-1], lst[i]
yield lst[-1], lst[0]

>>> a = list(range(5))
>>> for a1, a2 in pairs(a):
...     print a1, a2
...
0 1
1 2
2 3
3 4
4 0
``````

If you like this kind of stuff, look at python articles on wordaligned.org. The author has a special love of generators in python.

• Yeah, I noticed that and I've fixed it -- in the space of time it took to down-vote it. My fault, really. Aug 10 '09 at 22:02

I'd do it like this (mostly because I can read this):

``````class Pairs(object):
def __init__(self, start):
self.i = start
def next(self):
p, p1 = self.i, self.i + 1
self.i = p1
return p, p1
def __iter__(self):
return self

if __name__ == "__main__":
x = Pairs(0)
y = 1
while y < 20:
print x.next()
y += 1
``````

gives:

``````(0, 1)
(1, 2)
(2, 3)
(3, 4)
(4, 5)
(5, 6)
(6, 7)
(7, 8)
(8, 9)
``````
• +1 - Personally, I like this solution much better than the 'yield' based solutions. Aug 11 '09 at 0:54
``````[(i,(i+1)%len(range(10))) for i in range(10)]
``````

replace range(10) with the list you want.

In general "circular indexing" is quite easy in python; just use:

``````a[i%len(a)]
``````

``````import itertools

def pair(series, n):
s = list(itertools.tee(series, n))
try:
[ s[i].next() for i in range(1, n) for j in range(i)]
except StopIteration:
pass
while True:
result = []
try:
for j, ss in enumerate(s):
result.append(ss.next())
except StopIteration:
if j == 0:
break
else:
s[j] = iter(series)
for ss in s[j:]:
result.append(ss.next())
yield result
``````

The output is like this:

``````>>> for a in pair(range(10), 2):
...     print a
...
[0, 1]
[1, 2]
[2, 3]
[3, 4]
[4, 5]
[5, 6]
[6, 7]
[7, 8]
[8, 9]
[9, 0]
>>> for a in pair(range(10), 3):
...     print a
...
[0, 1, 2]
[1, 2, 3]
[2, 3, 4]
[3, 4, 5]
[4, 5, 6]
[5, 6, 7]
[6, 7, 8]
[7, 8, 9]
[8, 9, 0]
[9, 0, 1]
``````
• well, pair() is misnamed now ;) Aug 10 '09 at 22:38
• Yes, misnamed, not pretty, and 2 minutes after the OP's pythoned-to-the-max self-answer. Ah well. Aug 10 '09 at 22:51

This infinitely cycles, for good or ill, but is algorithmically very clear.

``````from itertools import tee, cycle

def nextn(iterable,n=2):
''' generator that yields a tuple of the next n items in iterable.
This generator cycles infinitely '''
cycled = cycle(iterable)
gens = tee(cycled,n)

# advance the iterators, this is O(n^2)
for (ii,g) in zip(xrange(n),gens):
for jj in xrange(ii):
gens[ii].next()

while True:
yield tuple([x.next() for x in gens])

def test():
data = ((range(10),2),
(range(5),3),
(list("abcdef"),4),)
for (iterable, n) in data:
gen = nextn(iterable,n)
for j in range(len(iterable)+n):
print gen.next()

test()
``````

gives:

``````(0, 1)
(1, 2)
(2, 3)
(3, 4)
(4, 5)
(5, 6)
(6, 7)
(7, 8)
(8, 9)
(9, 0)
(0, 1)
(1, 2)
(0, 1, 2)
(1, 2, 3)
(2, 3, 4)
(3, 4, 0)
(4, 0, 1)
(0, 1, 2)
(1, 2, 3)
(2, 3, 4)
('a', 'b', 'c', 'd')
('b', 'c', 'd', 'e')
('c', 'd', 'e', 'f')
('d', 'e', 'f', 'a')
('e', 'f', 'a', 'b')
('f', 'a', 'b', 'c')
('a', 'b', 'c', 'd')
('b', 'c', 'd', 'e')
('c', 'd', 'e', 'f')
('d', 'e', 'f', 'a')
``````
• I like the use of itertools.cycle(). I am not sure why your test code does range(len(iter) + n). I think range(len(iter)) is correct. Your n**2 code to advance the iterators is like my code: [ s[i].next() for i in range(1, n) for j in range(i)]. Aug 11 '09 at 0:55
• re: len(iter)+n... I wanted to show that it really does cycle infinitely. it's just in the test code, after all. Your one-liner for advancing is shorter/better. In any case, that's the one line in the code that definitely needs a comment, since it's the crux of the algorithm :) Aug 11 '09 at 1:00

Even shorter version of Fortran's zip * range solution (with lambda this time;):

``````group = lambda t, n: zip(*[t[i::n] for i in range(n)])

group([1, 2, 3, 3], 2)
``````

gives:

``````[(1, 2), (3, 4)]
``````
• nice, but not quite right, what I needed was to iterate in pairs, but with repetition of the elements and wrapping, for your example the output should be `[(1,2),(2,3),(3,4),(4,1)]` Feb 10 '10 at 8:12

Here's a version that supports an optional start index (for example to return (4, 0) as the first pair, use start = -1:

``````import itertools

def iterrot(lst, start = 0):

if start == 0:
i = iter(lst)
elif start > 0:
i1 = itertools.islice(lst, start, None)
i2 = itertools.islice(lst, None, start)
i = itertools.chain(i1, i2)
else:
# islice doesn't support negative slice indices so...
lenl = len(lst)
i1 = itertools.islice(lst, lenl + start, None)
i2 = itertools.islice(lst, None, lenl + start)
i = itertools.chain(i1, i2)
return i

def iterpairs(lst, start = 0):

i = iterrot(lst, start)

first = prev = i.next()
for item in i:
yield prev, item
prev = item
yield prev, first

def itertrios(lst, start = 0):

i = iterrot(lst, start)

first = prevprev = i.next()
second = prev = i.next()
for item in i:
yield prevprev, prev, item
prevprev, prev = prev, item

yield prevprev, prev, first
yield prev, first, second
``````
``````def pairs(ex_list):
for i, v in enumerate(ex_list):
if i < len(list) - 1:
print v, ex_list[i+1]
else:
print v, ex_list[0]
``````

Enumerate returns a tuple with the index number and the value. I print the value and the following element of the list `ex_list[i+1]`. The if `i < len(list) - 1` means if v is not the last member of the list. If it is: print v and the first element of the list `print v, ex_list[0]`.

## Edit:

You can make it return a list. Just append the printed tuples to a list and return it.

``````def pairs(ex_list):
result = []
for i, v in enumerate(ex_list):
if i < len(list) - 1:
result.append((v, ex_list[i+1]))
else:
result.append((v, ex_list[0]))
return result
``````

Of course, you can always use a deque:

``````from collections import deque
from itertools import *

def pairs(lst, n=2):
itlst = iter(lst)
start = list(islice(itlst, 0, n-1))
deq = deque(start, n)
for elt in chain(itlst, start):
deq.append(elt)
yield list(deq)
``````
``````i=(range(10))

for x in len(i):
print i[:2]
i=i[1:]+[i[1]]
``````

more pythonic than this is impossible

• less pythonic than this is actually very difficult. Feb 14 '17 at 9:26
• It would help if it actually worked: `TypeError: 'int' object is not iterable` Feb 14 '17 at 11:01