# pairwise traversal of a list or tuple

``````a = [5, 66, 7, 8, 9, ...]
``````

Is it possible to make an iteration instead of writing like this?

``````a[1] - a[0]

a[2] - a[1]

a[3] - a[2]

a[4] - a[3]
``````

...

Thank you!

-
at what point do you get stuck? What code do you have so far? –  Ivo van der Wijk Oct 3 '10 at 12:01
possible duplicate of Python - Differences between elements of a list –  SilentGhost Oct 3 '10 at 15:41

Sure.

``````for i in range(1, len(a)):
print a[i] - a[i-1]
``````

I fail to see what the real problem is here. Have you read the python tutorial?

-

Granted, such a simple task should not require extra functions, using `range` is perfectly fine. However, programming is about building abstractions, isn't it? Abstractions are nice because they reduce code length and give names to common patterns. When you find yourself using this more than once, it's time to abstract. Consecutive pairs [(x0, x1), (x1, x2), (x2, x3), ...], are called pairwise combinations. See a recipe in the itertools docs. Once you have this function in your toolset, it's as easy and declarative as:

``````for x, y in pairwise(xs):
print y - x
``````

Or, used as a generator expression:

``````consecutive_diffs = (y - x for (x, y) in pairwise(xs))
``````
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+1 for mentioning abstractions and for pairwise. –  Manoj Govindan Oct 3 '10 at 12:53

for a small list in python 2 or any list in python 3, you can use

``````[x - y for x, y in zip(a[1:], a)]
``````

for a larger list, you probably want

``````import itertools as it

[x - y for x, y in it.izip(a[1:], a)]
``````

if you are using python 2

And I would consider writing it as a generator expression instead

``````(x - y for x, y in it.izip(a[1:], a))
``````

This will avoid creating the second list in memory all at once but you will only be able to iterate over it once. If you only want to iterate over it once, then this is ideal and it's easy enough to change if you decide later that you need random or repeated access. In particular if you were going to further process it to make a list, then this last option is ideal.

update:

The fastest method by far is

``````import itertools as it
import operator as op

list(it.starmap(op.sub, it.izip(a[1:], a)))
``````

``````\$ python -mtimeit -s's = [1, 2]*10000' '[x - y for x, y in zip(s[1:], s)]'
100 loops, best of 3: 13.5 msec per loop

\$ python -mtimeit -s'import itertools as it; s = [1, 2]*10000' '[x - y for x, y in it.izip(s[1:], s)]'
100 loops, best of 3: 8.4 msec per loop

\$ python -mtimeit -s'import itertools as it; import operator as op; s = [1, 2]*10000' 'list(it.starmap(op.sub, it.izip(s[1:], s)))'
100 loops, best of 3: 6.38 msec per loop
``````
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they actually look overly complicated for a trivial task, especially considering the OP's assumed experience. When did ordinary for-loops become a bad thing to use? –  Ivo van der Wijk Oct 3 '10 at 12:10
when the became twice as slow and cruftier to read than a comprehension. –  aaronasterling Oct 3 '10 at 12:13
Ok, I profiled and in this case they're not twice as slow but they're still the slowest by far. 16.8 msec with the same input as I display above. and my point about them being cruftier to read still stands. –  aaronasterling Oct 3 '10 at 12:24
@Ivo: Iterating over the indices instead of the elements of an array also introduces additional possibilities for mistakes. For example if you accidentally let your for-loop start at 0 instead of 1, you'd get an index out of bounds error. This is not something you have to worry about using list comprehensions and itertools. –  sepp2k Oct 3 '10 at 12:53
in spite of the bug risk in iterating over indices, it's by far the fastest in pypy 2.0 (250 usec per vs 400-600usec per for the others): `pypy -mtimeit -s'import itertools;import operator; seq=[0,1]*10000' '[seq[i+1] - seq[i] for i in range(len(seq)-1)]'` –  Jonathan Graehl Jun 27 '13 at 19:40