Is it possible to emulate something like sum() using list comprehension ?

For example - I need to calculate the product of all elements in a list :

list = [1, 2, 3]
product = [magic_here for i in list]

#product is expected to be 6

Code that is doing the same :

def product_of(input):
   result = 1
   for i in input:
      result *= i
   return result

10 Answers 10


No; a list comprehension produces a list that is just as long as its input. You will need one of Python's other functional tools (specifically reduce() in this case) to fold the sequence into a single value.

>>> from operator import mul
>>> nums = [1, 2, 3]
>>> reduce(mul, nums)

On Python 3 you will need to add this import: from functools import reduce

Implementation Artifact

In Python 2.5 / 2.6 You could use vars()['_[1]'] to refer to the list comprehension currently under construction. This is horrible and should never be used but it's the closest thing to what you mentioned in the question (using a list comp to emulate a product).

>>> nums = [1, 2, 3]
>>> [n * (vars()['_[1]'] or [1])[-1] for n in nums][-1]
  • 4
    egads, that's just...I don't event know.
    – joneshf
    May 19 '13 at 7:08
  • 2
    thats actually kinda neat ... I had no idea you could do that (And no Idea when or why you would ever want to) ... but cool all the same May 19 '13 at 7:09
  • 1
    +1 for your even sneakier approach to getting a result thank mine ;-)
    – Patrick
    May 19 '13 at 7:40

Starting Python 3.8, and the introduction of assignment expressions (PEP 572) (:= operator), we can use and increment a variable within a list comprehension and thus reduce a list to the sum of its elements:

total = 0
[total := total + x for x in [1, 2, 3, 4, 5]]
# 15


  • Initializes a variable total to 0
  • For each item, total is incremented by the current looped item (total := total + x) via an assignment expression
  • 2
    [total := total + x for x in [1, 2, 3, 4, 5]][-1] would give the sum (15). You'd need the last element of your result. Feb 26 '20 at 15:39

List comprehension always creates another list, so it's not useful in combining them (e.g. to give a single number). Also, there's no way to make an assignment in list comprehension, unless you're super sneaky.

The only time I'd ever see using list comprehensions as being useful for a sum method is if you only want to include specific values in the list, or you don't have a list of numbers:

list = [1,2,3,4,5]
product = [i for i in list if i % 2 ==0] # only sum even numbers in the list
print sum(product)

or another example":

# list of the cost of fruits in pence
list = [("apple", 55), ("orange", 60), ("pineapple", 140), ("lemon", 80)]
product = [price for fruit, price in list]
print sum(product)

Super sneaky way to make an assignment in a list comprehension

dict = {"val":0}
list = [1, 2, 3]
product = [dict.update({"val" : dict["val"]*i}) for i in list]
print dict["val"] # it'll give you 6!

...but that's horrible :)


Something like this:

>>> a = [1,2,3]
>>> reduce(lambda x, y: x*y, a)
  • 3
    I think you meant x+y not x*y... although both give the same result for your test data
    – Greg Ennis
    Nov 15 '13 at 20:28

I complement the answer of Ignacio Vazquez-Abrams with some code that uses the reduce operator of Python.

list_of_numbers = [1, 5, 10, 100]
reduce(lambda x, y: x + y, list_of_numbers)

which can also be written as

list_of_numbers = [1, 5, 10, 100]

def sum(x, y):
    return x + y

reduce(sum, list_of_numbers)

Bonus: Python provides this functionality in the built-in sum function. This is the most readable expression imo.

list_of_numbers = [1, 5, 10, 100]
>>> reduce(int.__mul__,[1,2,3])

C:\Users\Henry>python -m timeit -s "" "reduce(int.__mul__,range(10000))" 
1000 loops, best of 3: 910 usec per loop

C:\Users\Henry>python -m timeit -s "from operator import mul" "reduce(mul,range(10000))"
1000 loops, best of 3: 399 usec per loop


It is possible to achieve by using lambda with list comprehension Since we can't assign a value in list comprehension we go with lambda


>>> (lambda number_list, sum=0:[sum for number in number_list for sum in [sum + number]][-1])([1, 2, 3, 4, 5])
>>> 15

I might be a bit late for this discussion, but I would like to mention that list comprehentions are turing complete, and thus this can be done with a list comprehention!

This however is messy, so I have used the following trick, which makes a cummulative array, and returns the last element

def sum(l):
    return [c[-1] for c in [[0]] for e in l if c.append(c[-1] + e) is None][-1]

Found the magic on http://code.activestate.com/recipes/436482/.

>>> L=[2, 3, 4]
>>> [j for j in [1] for i in L for j in [j*i]][-1]

It should be the logic like the following code.

L=[2, 3, 4]
for j in [1]:
    for i in L:
        for j in [j*i]:
  • 2
    This was flagged as VLQ. Constructs an entire list, then takes just one value - so vastly inefficient and not technically "emulate with list comprehension" (which is impossible for the reasons stated in top answers). This could do as an "anti-example" but it's so bad I'm inclined to recommend deletion. May 19 '16 at 20:07
  • Just no... but the answer wasn't even right for doing sum. Out of morbid curiosity, I was able to make it work with this: [j for j in [0] for i in L for j in [j+i]][-1], But in no way would I recommend this approach. To do sum, you need to have a starting list with an identity of [0], starting with [1] works for product because you are multiplying the first number by 1, hence the change to [0]. As @ivan_pozdeev points out, this is building a new list with the operation applied to each element of the list, and then just taking the final value. This is not the same as the question. Nov 7 '19 at 23:44
  • It was my old post and eval('*'.join(map(str,list))) is the way I usually use..
    – graviton
    Nov 8 '19 at 11:50

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