The documentation for 3.8 provides this recipe:

```
import itertools
def pairwise(iterable):
"s -> (s0, s1), (s1, s2), (s2, s3), ..."
a, b = itertools.tee(iterable)
next(b, None)
return zip(a, b)
```

For Python 2, use `itertools.izip`

instead of `zip`

to get the same kind of lazy iterator (`zip`

will instead create a list):

```
import itertools
def pairwise(iterable):
"s -> (s0, s1), (s1, s2), (s2, s3), ..."
a, b = itertools.tee(iterable)
next(b, None)
return itertools.izip(a, b)
```

How this works:

First, two parallel iterators, `a`

and `b`

are created (the `tee()`

call), both pointing to the first element of the original iterable. The second iterator, `b`

is moved 1 step forward (the `next(b, None)`

) call). At this point `a`

points to s0 and `b`

points to s1. Both `a`

and `b`

can traverse the original iterator independently - the izip function takes the two iterators and makes pairs of the returned elements, advancing both iterators at the same pace.

Since `tee()`

can take an `n`

parameter (the number of iterators to produce), the same technique can be adapted to produce a larger "window". For example:

```
def threes(iterator):
"s -> (s0, s1, s2), (s1, s2, s3), (s2, s3, 4), ..."
a, b, c = itertools.tee(iterator, 3)
next(b, None)
next(c, None)
next(c, None)
return zip(a, b, c)
```

Caveat: If one of the iterators produced by `tee`

advances further than the others, then the implementation needs to keep the consumed elements in memory until every iterator has consumed them (it cannot 'rewind' the original iterator). Here it doesn't matter because one iterator is only 1 step ahead of the other, but in general it's easy to use a lot of memory this way.

`next`

this way masks a built-in.