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Is there a more concise, efficient or simply pythonic way to do the following?

def product(list):
    p = 1
    for i in list:
        p *= i
    return p


I actually find that this is marginally faster than using operator.mul:

from operator import mul
# from functools import reduce # python3 compatibility

def with_lambda(list):
    reduce(lambda x, y: x * y, list)

def without_lambda(list):
    reduce(mul, list)

def forloop(list):
    r = 1
    for x in list:
        r *= x
    return r

import timeit

a = range(50)
b = range(1,50)#no zero
t = timeit.Timer("with_lambda(a)", "from __main__ import with_lambda,a")
print("with lambda:", t.timeit())
t = timeit.Timer("without_lambda(a)", "from __main__ import without_lambda,a")
print("without lambda:", t.timeit())
t = timeit.Timer("forloop(a)", "from __main__ import forloop,a")
print("for loop:", t.timeit())

t = timeit.Timer("with_lambda(b)", "from __main__ import with_lambda,b")
print("with lambda (no 0):", t.timeit())
t = timeit.Timer("without_lambda(b)", "from __main__ import without_lambda,b")
print("without lambda (no 0):", t.timeit())
t = timeit.Timer("forloop(b)", "from __main__ import forloop,b")
print("for loop (no 0):", t.timeit())

gives me

('with lambda:', 17.755449056625366)
('without lambda:', 8.2084708213806152)
('for loop:', 7.4836349487304688)
('with lambda (no 0):', 22.570688009262085)
('without lambda (no 0):', 12.472226858139038)
('for loop (no 0):', 11.04065990447998)
share|improve this question
The with-zero results are not very interesting. What would be interesting is what version of Python you are using on what platform. – John Machin Jan 21 '10 at 22:46
There's a functional difference between the options given here in that for an empty list the reduce answers raise a TypeError, whereas the for loop answer returns 1. This is a bug in the for loop answer (the product of an empty list is no more 1 than it is 17 or 'armadillo'). – Scott Griffiths Jan 24 '10 at 8:28
Please try to avoid using names of built-ins (such as list) for the names of your variables. – Mark Byers Aug 4 '12 at 10:22
Old answer, but I am tempted to edit so it doesn't use list as a variable name... – beroe Apr 17 '14 at 5:50
The product of an empty list is 1. – Paul Crowley Oct 27 '15 at 12:02
up vote 86 down vote accepted

Without using lambda:

from operator import mul
reduce(mul, list, 1)

it is better and faster. With python 2.7.5

from operator import mul
import numpy as np
import numexpr as ne
# from functools import reduce # python3 compatibility

a = range(1, 101)
%timeit reduce(lambda x, y: x * y, a)   # (1)
%timeit reduce(mul, a)                  # (2)
%timeit                      # (3)
%timeit ne.evaluate("prod(a)")          # (4)

In the following configuration:

a = range(1, 101)  # A
a = np.array(a)    # B
a = np.arange(1, 1e4, dtype=int) #C
a = np.arange(1, 1e5, dtype=float) #D

Results with python 2.7.5

       |     1     |     2     |     3     |     4     |
 A       20.8 µs     13.3 µs     22.6 µs     39.6 µs     
 B        106 µs     95.3 µs     5.92 µs     26.1 µs
 C       4.34 ms     3.51 ms     16.7 µs     38.9 µs
 D       46.6 ms     38.5 ms      180 µs      216 µs

Result: is the fastest one, if you use np.array as data structure (18x for small array, 250x for large array)

with python 3.3.2:

       |     1     |     2     |     3     |     4     |
 A       23.6 µs     12.3 µs     68.6 µs     84.9 µs     
 B        133 µs      107 µs     7.42 µs     27.5 µs
 C       4.79 ms     3.74 ms     18.6 µs     40.9 µs
 D       48.4 ms     36.8 ms      187 µs      214 µs

Is python 3 slower?

share|improve this answer
Very interesting, thanks. Any idea why python 3 might be slower? – Simon Watkins Jan 20 '10 at 22:16
Possible reasons: (1) Python 3 int is Python 2 long. Python 2 will be using "int" until it overflows 32 bits; Python 3 will use "long" from the start. (2) Python 3.0 was a "proof of concept". Upgrade to 3.1 ASAP! – John Machin Jan 20 '10 at 22:30
I've redone the same test on an other machine: python 2.6 ('with lambda:', 21.843887090682983) ('without lambda:', 9.7096879482269287) python 3.1: with lambda: 24.7712180614 without lambda: 10.7758350372 – Ruggero Turra Jan 21 '10 at 11:25
both fail with empty lists. – bug Jan 26 '13 at 18:44
@bug: thank you, fixed – Ruggero Turra Jan 26 '13 at 19:40
reduce(lambda x, y: x * y, list, 1)
share|improve this answer
+1 but see @wiso's answer about operator.mul for a better way to do it. – Chris Lutz Jan 20 '10 at 21:37
fails with empty lists. – bug Jan 26 '13 at 18:43
Thanks. Added third argument. – Johannes Charra Jan 30 '13 at 12:10
why is operator.mul preferrable to x*y? – Adam Hughes Feb 26 '15 at 17:04
operator.mul is a function and would thus be a replacement not only for x*y but for the entire lambda expression (i.e. the first argument to reduce) – Johannes Charra Mar 19 '15 at 10:36

if you just have numbers in your list:

from numpy import prod
share|improve this answer
this is slower if the list is short – endolith Apr 25 at 16:03
import operator
reduce(operator.mul, list, 1)
share|improve this answer
is the last argument (1) really necessary? – Ruggero Turra Jan 20 '10 at 21:47
The last argument is necessary if the list may be empty, otherwise it will throw a TypeError exception. Of course, sometimes an exception will be what you want. – Dave Kirby Jan 21 '10 at 0:06
For me it returns 0 without that argument, so you can also consider it necessary to enforce the empty product convention. – bug Jan 26 '13 at 18:42

I remember some long discussions on comp.lang.python (sorry, too lazy to produce pointers now) which concluded that your original product() definition is the most Pythonic.

Note that the proposal is not to write a for loop every time you want to do it, but to write a function once (per type of reduction) and call it as needed! Calling reduction functions is very Pythonic - it works sweetly with generator expressions, and since the sucessful introduction of sum(), Python keeps growing more and more builtin reduction functions - any() and all() are the latest additions...

This conclusion is kinda official - reduce() was removed from builtins in Python 3.0, saying:

"Use functools.reduce() if you really need it; however, 99 percent of the time an explicit for loop is more readable."

See also The fate of reduce() in Python 3000 for a supporting quote from Guido (and some less supporting comments by Lispers that read that blog).

P.S. if by chance you need product() for combinatorics, see math.factorial() (new 2.6).

share|improve this answer
+1 for an accurate (to the best of my knowledge) account of the prevailing moods in the Python community -- while I definately prefer going against said prevailing moods in this case, it's best to know them for what they are anyway. Also, I like the bit about unsupportive Lispers from LtU (I'd be one of those, I guess). :-) – Michał Marczyk Jan 23 '10 at 20:42

The intent of this answer is to provide a calculation that is useful in certain circumstances -- namely when a) there are a large number of values being multiplied such that the final product may be extremely large or extremely small, and b) you don't really care about the exact answer, but instead have a number of sequences, and want to be able to order them based on each one's product.

If you want to multiply the elements of a list, where l is the list, you can do:

import math
math.exp(sum(map(math.log, l)))

Now, that approach is not as readable as

from operator import mul
reduce(mul, list)

If you're a mathematician who isn't familiar with reduce() the opposite might be true, but I wouldn't advise using it under normal circumstances. It's also less readable than the product() function mentioned in the question (at least to non-mathematicians).

However, if you're ever in a situation where you risk underflow or overflow, such as in

>>> reduce(mul, [10.]*309)

and your purpose is to compare the products of different sequences rather than to know what the products are, then

>>> sum(map(math.log, [10.]*309))

is the way to go because it's virtually impossible to have a real-world problem in which you would overflow or underflow with this approach. (The larger the result of that calculation is, the larger the product would be if you could calculate it.)

share|improve this answer

Well if you really wanted to make it one line without importing anything you could do:

eval('*'.join(str(item) for item in list))

But don't.

share|improve this answer

This also works though its cheating

def factorial(n):
    if n <= 1:
        return 1
        for i in range(1,n+1): 
        print x[n-1]    
share|improve this answer
I've fixed the indentation, but I think you should replace the last print with a return. Also, there's no need to store the intermediate values in a list, you just need to store p betweens iterations. – BoppreH Oct 18 '13 at 18:54

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