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Given a list of numbers like [1,2,3,4,5,6], how can I write code to multiply them all together, i.e. compute 1*2*3*4*5*6?

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15 Answers 15

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257

Python 3: use functools.reduce:

>>> from functools import reduce
>>> reduce(lambda x, y: x*y, [1, 2, 3, 4, 5, 6])
720

Python 2: use reduce:

>>> reduce(lambda x, y: x*y, [1, 2, 3, 4, 5, 6])
720

For compatible with 2 and 3 use Six (pip install six), then:

>>> from six.moves import reduce
>>> reduce(lambda x, y: x*y, [1,2,3,4,5,6])
720
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  • 33
    @jheld: I timed product-ing the numbers from 1 to 100. In both python2 and 3, lambda took an average of .02s/1000 repetitions, whereas operator.mul took an average of .009s/1000 repetitions, making operator.mul an order of magnitude faster.
    – whereswalden
    Nov 1, 2014 at 18:49
  • 4
    @wordsforthewise probably it's that going through an extra function (lambda) adds overhead, whereas operator.mul goes straight to C.
    – whereswalden
    Nov 9, 2015 at 20:32
  • 4
    I really wouldn't call .009 an order of magnitude lower than .02. It's just about half.
    – jlh
    Apr 11, 2018 at 21:28
  • 8
    As of Python 3.8, it can be simply done with math.prod([1,2,3,4,5,6]). (requires import of-course)
    – Tomerikoo
    Jan 26, 2020 at 23:51
  • 1
    You don't need to install six to use the same syntax in Python 2.6 or 2.7 as in Python 3. You just need to use the same line from functools import reduce as used in Python 3.
    – Alan
    Feb 28, 2020 at 19:45
194

You can use:

import operator
import functools
functools.reduce(operator.mul, [1,2,3,4,5,6], 1)

See reduce and operator.mul documentations for an explanation.

You need the import functools line in Python 3+.

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  • 32
    Note that in python3, the reduce() function has been removed from the global namespace and placed in the functools module. So in python3 you need to say from functools import reduce.
    – Eugene Yarmash
    Nov 1, 2013 at 17:10
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    The '1' as the third argument is unnecessary here, what's a case where it would be needed?
    – wordsforthewise
    Nov 9, 2015 at 18:59
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    @wordsforthewise without the third argument, it throws a TypeError exception if you pass it an empty sequence
    – Francisco
    Jul 11, 2016 at 3:41
120

I would use the numpy.prod to perform the task:

import numpy as np

mylist = [1, 2, 3, 4, 5, 6] 
result = np.prod(np.array(mylist))
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  • 20
    Convenient if you're already using Numpy. You probably don't even need to cast it as a list first, this should work for most cases result = np.prod(mylist)
    – Nick
    Jun 9, 2016 at 23:47
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    Two things to watch out for: 1) It might overflow, especially if using the default numpy.int32 as above 2) For small lists this will be significantly slower, since NumPy needs to allocate an array (relevant if repeated often)
    – Disenchanted
    Nov 28, 2017 at 10:09
  • 2
    overflow for values above 21 here np.prod(np.array(range(1,21)))
    – PatrickT
    Oct 23, 2018 at 12:50
  • It is not a good choice. It can overflow and it is slower. try reduce.
    – Peyman
    Jan 31, 2020 at 12:58
79

If you want to avoid importing anything and avoid more complex areas of Python, you can use a simple for loop:

nums = [1, 2, 3]

product = 1  # Don't use 0 here, otherwise, you'll get zero 
             # because anything times zero will be zero.
for num in nums:
    product *= num
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  • 10
    Minor note: Slices in Python are very easy, and since we're only dealing with primitives here, you can avoid the minor kludge of starting with 1 by starting with list[0] and iterating over list[1:]. Though getting comfortable with the more functional 'reduce' answers here is valuable in the long term as it's also useful in other circumstances.
    – kungphu
    Oct 26, 2013 at 15:35
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    @kungphu The empty product is usually defined as 1, your solution would throw an IndexError exception instead if you pass it an empty sequence
    – Francisco
    Jul 11, 2016 at 3:44
  • @Francisco Granted, but this function probably should throw some flavor of exception in that case, since an empty sequence would be invalid input for this function. In fact, this function is not meaningful for any sequence with less than two values; if you pass a sequence with one value and multiply it by 1, you've essentially added a value that wasn't there, which I'd say amounts to unexpected behavior.
    – kungphu
    Jul 11, 2016 at 5:21
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    @kungphu, the behaviour for this answer is correct, i.e. passing a list of length 1 returns the value, and passing a list of length 0 returns 1. It's in the same line of thinking that gives sum([]) as 0 or sum([3]) as 3. See: en.wikipedia.org/wiki/Empty_product
    – emorris
    Aug 22, 2016 at 13:48
  • 1
    I see your point regarding mathematical functions. However, in a practical development situation, I would call it a very rare situation where a function that's explicitly intended to operate on input should return a value given what amounts to no input or invalid input. I suppose it depends on the goal of the exercise: If it's just to replicate the standard library, OK, perhaps it teaches people something about how the (or a) language is or can be implemented. Otherwise I'd say it misses out on a good opportunity to provide a lesson on valid and invalid arguments.
    – kungphu
    Aug 23, 2016 at 2:54
71

In Python 3.8 and up, the math standard library module provides .prod for this purpose:

math.prod(iterable, *, start=1)

The method returns the product of a start value (default: 1) times an iterable of numbers:

import math
math.prod([1, 2, 3, 4, 5, 6])
# 720

If the iterable is empty, this will produce 1 (or the start value, if provided).

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16

Here's some performance measurements from my machine. Relevant in case this is performed for small inputs in a long-running loop:

import functools, operator, timeit
import numpy as np

def multiply_numpy(iterable):
    return np.prod(np.array(iterable))

def multiply_functools(iterable):
    return functools.reduce(operator.mul, iterable)

def multiply_manual(iterable):
    prod = 1
    for x in iterable:
        prod *= x

    return prod

sizesToTest = [5, 10, 100, 1000, 10000, 100000]

for size in sizesToTest:
    data = [1] * size

    timerNumpy = timeit.Timer(lambda: multiply_numpy(data))
    timerFunctools = timeit.Timer(lambda: multiply_functools(data))
    timerManual = timeit.Timer(lambda: multiply_manual(data))

    repeats = int(5e6 / size)
    resultNumpy = timerNumpy.timeit(repeats)
    resultFunctools = timerFunctools.timeit(repeats)
    resultManual = timerManual.timeit(repeats)
    print(f'Input size: {size:>7d} Repeats: {repeats:>8d}    Numpy: {resultNumpy:.3f}, Functools: {resultFunctools:.3f}, Manual: {resultManual:.3f}')

Results:

Input size:       5 Repeats:  1000000    Numpy: 4.670, Functools: 0.586, Manual: 0.459
Input size:      10 Repeats:   500000    Numpy: 2.443, Functools: 0.401, Manual: 0.321
Input size:     100 Repeats:    50000    Numpy: 0.505, Functools: 0.220, Manual: 0.197
Input size:    1000 Repeats:     5000    Numpy: 0.303, Functools: 0.207, Manual: 0.185
Input size:   10000 Repeats:      500    Numpy: 0.265, Functools: 0.194, Manual: 0.187
Input size:  100000 Repeats:       50    Numpy: 0.266, Functools: 0.198, Manual: 0.185

You can see that Numpy is quite a bit slower on smaller inputs, since it allocates an array before multiplication is performed. Also, watch out for the overflow in Numpy.

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  • You could add the eval way just out of curiosity
    – Mr_and_Mrs_D
    Mar 27, 2018 at 10:55
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    I suspect that multiply_functools and multiply_numpy are weighed down by having to look up the np,functools and operator globals, followed by attribute lookups. Would you mind switching to locals? _reduce=functools.reduce, _mul=operator.mul` in the function signature then return _reduce(_mul, iterable) in the body, etc.
    – Martijn Pieters
    Jan 4, 2019 at 11:52
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    Also, the numpy version has to first convert the numbers to a numpy array; you'd normally already have made that conversion, to include that in the timings is not really fair. With the list converted to a numpy array once, the np.prod() option starts becomes fastest at 100 elements or more.
    – Martijn Pieters
    Jan 4, 2019 at 11:59
8

Numpy has the prod() function that returns the product of a list, or in this case since it's numpy, it's the product of an array over a given axis:

import numpy
a = [1,2,3,4,5,6]
b = numpy.prod(a)

...or else you can just import numpy.prod():

from numpy import prod
a = [1,2,3,4,5,6]
b = prod(a)
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7

I personally like this for a function that multiplies all elements of a generic list together:

def multiply(n):
    total = 1
    for i in range(0, len(n)):
        total *= n[i]
    print total

It's compact, uses simple things (a variable and a for loop), and feels intuitive to me (it looks like how I'd think of the problem, just take one, multiply it, then multiply by the next, and so on!)

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  • 8
    Why not for i in n:, then total *= i? would not it be much simpler?
    – Munim Munna
    Jul 22, 2018 at 21:42
5

The simple way is:

import numpy as np
np.exp(np.log(your_array).sum())
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  • 12
    what about just np.prod(your_Array)
    – dashesy
    May 23, 2018 at 23:59
  • a) taking logs is expensive. b) ill behaved for for zero and negative values.. could be fixed by using abs, and counting the negatives, and bailing if there is a zero either by checking in advance or by the exception. regardless, it's expensive
    – ShpielMeister
    Oct 28, 2021 at 5:04
3 
nums = str(tuple([1,2,3]))
mul_nums = nums.replace(',','*')
print(eval(mul_nums))
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2

Found this question today but I noticed that it does not have the case where there are None's in the list. So, the complete solution would be:

from functools import reduce

a = [None, 1, 2, 3, None, 4]
print(reduce(lambda x, y: (x if x else 1) * (y if y else 1), a))

In the case of addition, we have: 

print(reduce(lambda x, y: (x if x else 0) + (y if y else 0), a))
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2

Just wanna add a Python 3.8 One-liner answer:

def multiply(l):
    return [b := 1, [b := b * a for a in l]][-1][-1]


print(multiply([2, 3, 8, 10]))

output:

480

explanation:

  • [b := 1, is for defining a temporary variable

  • ...[b := b * a for a in l] is for iterating over the list and multiplying b by every element

  • ...[-1][-1] is because the final list is [b, [b * l[0], b * l[1], ..., b * l[-1]]]. and so the element in the final position is the multiplication of all of the elements in the list.

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  • 1
    The := operator was added in 3.8, and this works in 3.8 and up. However, this is needlessly cryptic.
    – Karl Knechtel
    Feb 3 at 17:09
  • Thanks for the comment, however, my solution isn't aiming to be efficient or pretty, the only reason for it is being a one-liner.
    – Eilonlif
    Feb 4 at 23:58
0

How about using recursion? 

def multiply(lst):
    if len(lst) > 1:
        return multiply(lst[:-1])* lst[-1]
    else:
        return lst[0]
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One way you can use is math.prod() For example:

import math
arr = [1, 2, 3, 4]
print(math.prod(arr))

Another way is numpy.prod() This is another library to import

import numpy
arr = [1, 2, 3, 4]
print(numpy.prod(arr))
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-1

There are many good answers in this thread. If you want to do multiply a list in actual production I recommend using standard numpy or math packages.

If you are just looking for a quick and dirty solution and you don’t want to import anything you can do this:

l = [1,2,3,4,5,6]

def list_multiply(l):
    return eval('*'.join(map(str,l)))
    
print(list_multiply(l))
#Output: 720

map(str,l) converts each element in the list to a string. join combines each element into one string separated by the * symbol. eval converts the string back into a function that can evaluated.

Warning: eval is considered dangerous to use, especially if the program accepts user input because a user can potentially inject any function into the code and compromise your system.

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