Get the (multiplicative) product of a tuple or list?

Let's say I have a

class Rectangle(object):
def __init__(self, length, width, height=0):
self.l = length
self.w = width
self.h = height
if not self.h:
self.a = self.l * self.w
else:
from itertools import combinations
args = [self.l, self.w, self.h]
self.a = sum(x*y for x,y in combinations(args, 2)) * 2
# original code:
# (self.l * self.w * 2) + \
# (self.l * self.h * 2) + \
# (self.w * self.h * 2)
self.v = self.l * self.w * self.h

What's everyone's take on line 12?

self.a = sum(x*y for x,y in combinations(args, 2)) * 2

I've heard that explicit list index references should be avoided.

Is there a function I can use that acts like sum(), but only for multiplication?

Thanks for the help everyone.

• FWIW, you can also factor the "* 2" out of the summation. Oct 22 '11 at 19:29
• Good call. I changed it. Oct 22 '11 at 19:42

I don't see any problem with using indexes here:

sum([x * x for x in combinations(args, 2)])

If you really want to avoid them, you can do:

sum([x*y for x,y in combinations(args, 2)])

But, to be honest I would prefer your commented out version. It is clear, readable and more explicit. And you don't really gain much by writing it as above just for three variables.

Is there a function I can use that acts like sum(), but only for multiplication?

Built-in? No. But you can get that functionality rather simply with the following:

In : a=[1,2,3,4,5,6]

In : from operator import mul

In : reduce(mul,a)
Out: 720
• reduce does not exist any more from python 3.0+ Oct 22 '11 at 19:40
• +1 and answer for the reduce(mul, l) tip. I agree, the first draft was clearer, I was just looking for a one liner to expand my list comprehension...comprehension. :D Oct 22 '11 at 19:48
• @Serdalis: Correct, thanks for the tip. But there is functools.reduce, which is same actually. Oct 22 '11 at 20:01

Since this is in the top Google results, I'll just add that since Python 3.8, you can do :

from math import prod
t = (5, 10)
l = [2, 100]
prod(t) # 50
prod(l) # 200
• Even though this doesn't actually answer my question, it matches the title, and should be the easiest to find in a quick search. To be completely accurate, though, I would want to sum these product results together: sum(map(math.prod, itertools.combinations([l, w, h], 2))) * 2 Dec 3 '20 at 0:21
• Haha thanks for maintaining this question 9 years later! A slightly shorter version: 2*(h*w+h*l+l*w). itertools.combinations is indeed useful for higher dimensions, but math.prod doesn't seem to help much. Dec 6 '20 at 14:28

In short, just use np.prod

import numpy as np
my_tuple = (2, 3, 10)
print(np.prod(my_tuple))  # 60

Which is in your use case

np.sum(np.prod(x) for x in combinations(args, 2))

np.prod can take both lists and tuple as a parameter. It returns the product you want.

• While this code snippet may solve the question, including an explanation really helps to improve the quality of your post. Remember that you are answering the question for readers in the future, and those people might not know the reasons for your code suggestion. Mar 7 '17 at 13:25
• Please take the time to update this valid answer. "np" clearly does not work - this involves a) an import of numpy (which is not mentioned at all) and 2) aliasing this import as np. I don't see why people take the time to answer questions but then do it so badly. Dec 2 '20 at 13:28

you can do:

from operator import mul
sum(reduce(mul,combinations(args, 2)))

but I think it just makes things less readable.

However, before summing you are actually building the list of multiplication sum([...]).

self.a = sum([(x * x * 2) for x in combinations(args, 2)])

This is not needed, simply do:

self.a = sum(x * y * 2 for x,y in combinations(args, 2))
• I see too many left brackets in both of your examples. I ran my code in 2.6, it compiled for me. I'll try the for x, y in bit, though. Oct 22 '11 at 19:38
• I fixed my typo, you should fix yours :) there is problem here sum(([x...
– log0
Oct 22 '11 at 19:47
• Why doesn't SO come with an interpreter for noobs like me? Good eye. Oct 22 '11 at 19:54
• @Ugo: (x * x * 2) is not a tuple. It is same as x * x * 2. You need to put , in order to make a tuple of length one, e.g. (2,). Oct 22 '11 at 20:04

I did make a very simple definition of product; helpful for "calculating the product of a tuple"

def product(tuple1):
"""Calculates the product of a tuple"""
prod = 1
for x in tuple1:
prod = prod * x
return prod

Might be a more elegant way to do it but this seems to work OK. Presumably it would work on a list just as well.