# Multiply Adjacent Elements

I have a tuple of integers such as `(1, 2, 3, 4, 5)` and I want to produce the tuple `(1*2, 2*3, 3*4, 4*5)` by multiplying adjacent elements. Is it possible to do this with a one-liner?

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Short and sweet. Remember that `zip` only runs as long as the shortest input.

``````print tuple(x*y for x,y in zip(t,t[1:]))
``````
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+1 I knew I missed something! – Volatility Feb 17 '13 at 1:15
@nneonneo @Paul Manta Not so good. `t[1:]` creates a new object, the `zip(t,t[1:])` creates one object more, and `for x,y in zip(t,t[1:])` needs unpacking of each element of the zipped object to the two identifiers `x` and `y` – eyquem Feb 17 '13 at 1:51
If it matters to you, use `izip` and `islice`. Tuple unpacking is cheap, and avoiding it just to save a few microseconds is not worth it. – nneonneo Feb 17 '13 at 1:53
@nneonneo `izip` or `islice` need to be imported (however `islice` is a good idea I think). You say in another comment that indexing tuples is expensive; `zip`, probably `izip` too it seems to me, builds tuples of two elements, it is a pity to build objects that need to be unpacked just after. On the contrary, tu[i] and tu[i+1] do access directly to elements – eyquem Feb 17 '13 at 2:07
@eyquem: Under Python 3, this solution is about 35% faster (13.3ms vs. 20.6ms) for tuples of length 100000 than using indexing. (Note that under Python 3, `zip` is lazy like `izip`). – nneonneo Feb 17 '13 at 2:08
``````>>> t = (1, 2, 3, 4, 5)
>>> print tuple(t[i]*t[i+1] for i in range(len(t)-1))
(2, 6, 12, 20)
``````

Not the most pythonic of solutions though.

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+1 Seems good enough. Why is it not the most Pythonic? – Paul Manta Feb 17 '13 at 1:06
@PaulManta Case in point – Volatility Feb 17 '13 at 1:18
@Volatility See my comment to Eugenie's answer. – eyquem Feb 17 '13 at 1:46

If t is your tuple:

``````>>> tuple(t[x]*t[x+1] for x in range(len(t)-1))
(2, 6, 12, 20)
``````

And another solution with lovely map:

``````>>> tuple(map(lambda x,y:x*y, t[1:], t[:-1]))
(2, 6, 12, 20)
``````

Edit: And if you worry about the extra memory consuption of the slices, you can use islice from itertools, which will iterate over your tuple(thx @eyquem):

``````>>> tuple(map(lambda x,y:x*y, islice(t, 1, None), islice(t, 0, len(t)-1)))
(2, 6, 12, 20)
``````
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The first one is basic good. The second isn't so good because `t[1:]` creates an entirely new object and `t[:1]` creates also an entirely new object: it's time and memory consuming, that may be an inconvenient if the tuple is very large. - The first solution is access to elements of an existing tuple, index accesses are very fast (as far as I know) – eyquem Feb 17 '13 at 1:45
@eyquem for small tuples, the indexing is all (relatively expensive) Python calls whereas iteration likely involves more C code. (Cue complaint about premature optimization, etc...). And if you really care that much about not copying the tuple, you can use `izip` and `islice`. – nneonneo Feb 17 '13 at 1:52
@nneonneo Indexing tuples is expensive ? I'd like to know more – eyquem Feb 17 '13 at 1:58
@eyquem: Indexing tuples is more Python operations, that's all. – nneonneo Feb 17 '13 at 2:00
@nneonneo Mmmmm... What do you call more operations ? – eyquem Feb 17 '13 at 2:02
``````tu = (1, 2, 3, 4, 5)

it = iter(tu).next
it()
print tuple(a*it() for a in tu)
``````

I timed various code:

``````from random import choice
from time import clock
from itertools import izip

tu = tuple(choice(range(0,87)) for i in xrange(2000))

A,B,C,D = [],[],[],[]

for n in xrange(50):

rentime = 100

te = clock()
for ren in xrange(rentime): # indexing
tuple(tu[x]*tu[x+1] for x in range(len(tu)-1))
A.append(clock()-te)

te = clock()
for ren in xrange(rentime): # zip
tuple(x*y for x,y in zip(tu,tu[1:]))
B.append(clock()-te)

te = clock()
for ren in xrange(rentime): #i ter
it = iter(tu).next
it()
tuple(a*it() for a in tu)
C.append(clock()-te)

te = clock()
for ren in xrange(rentime): # izip
tuple(x*y for x,y in izip(tu,tu[1:]))
D.append(clock()-te)

print 'indexing ',min(A)
print 'zip      ',min(B)
print 'iter     ',min(C)
print 'izip     ',min(D)
``````

result

``````indexing  0.135054036197
zip       0.134594201218
iter      0.100380634969
izip      0.0923947037962
``````

izip is better than zip : - 31 %

My solution isn't so bad (I didn't think so by the way): -25 % relatively to zip, 10 % more time than champion izip

I'm surprised that indexing isn't faster than zip : nneonneo is right, zip is acceptable

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When I change `range` to `xrange` in this line `tuple(tu[x]*tu[x+1] for x in range(len(tu)-1))` and increase tuple size to 200,000 indexing performs 30% times faster than zip on my machine. Though, izip and iter are the fastest and very close. – Akavall Feb 17 '13 at 3:38
@Akavall @nneonneo Oh I was stupid to let `range`. You are right, Akavall, it improves. I did the same as you (200,000) and I got 16 for `zip`, 13 for `indexing` and `iter` and 10 for `izip`. The longer is the tuple, the worse is `zip`. That means that the construct of the new object by `zip` is heavy. The fact that `izip` remains the best means that the unpacking isn't really time consuming. However, 10 compared to 13 is now only 23 % less time, not 32 or 35%. – eyquem Feb 17 '13 at 5:32

I like the recipes from `itertools`:

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

def pairwise(iterable):
xs, ys = tee(iterable)
next(ys)
return izip(xs, ys)

print [a * b for a, b in pairwise(range(10))]
``````

Result:

``````[0, 2, 6, 12, 20, 30, 42, 56, 72]
``````
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