Find all combinations of a list of numbers with a given sum

You could use itertools to iterate through every combination of every possible size, and filter out everything that doesn't sum to 10:

import itertools

numbers = [1, 2, 3, 7, 7, 9, 10]
target = 10

result = [seq for i in range(len(numbers), 0, -1)
          for seq in itertools.combinations(numbers, i)
          if sum(seq) == target]

print(result)

Result:

[(1, 2, 7), (1, 2, 7), (1, 9), (3, 7), (3, 7), (10,)]

Unfortunately this is something like O(2^N) complexity, so it isn't suitable for input lists larger than, say, 20 elements.

The solution @kgoodrick offered is great but I think it is more useful as a generator:

def subset_sum(numbers, target, partial=[], partial_sum=0):
    if partial_sum == target:
        yield partial
    if partial_sum >= target:
        return
    for i, n in enumerate(numbers):
        remaining = numbers[i + 1:]
        yield from subset_sum(remaining, target, partial + [n], partial_sum + n)

list(subset_sum([1, 2, 3, 7, 7, 9, 10], 10)) yields [[1, 2, 7], [1, 2, 7], [1, 9], [3, 7], [3, 7], [10]].

This question has been asked before, see @msalvadores answer here. I updated the python code given to run in python 3:

def subset_sum(numbers, target, partial=[]):
    s = sum(partial)

    # check if the partial sum is equals to target
    if s == target:
        print("sum(%s)=%s" % (partial, target))
    if s >= target:
        return  # if we reach the number why bother to continue

    for i in range(len(numbers)):
        n = numbers[i]
        remaining = numbers[i + 1:]
        subset_sum(remaining, target, partial + [n])


if __name__ == "__main__":
    subset_sum([3, 3, 9, 8, 4, 5, 7, 10], 15)

    # Outputs:
    # sum([3, 8, 4])=15
    # sum([3, 5, 7])=15
    # sum([8, 7])=15
    # sum([5, 10])=15

@qasimalbaqali

This may not be exactly what the post is looking for, but if you wanted to:

Find all combinations of a range of numbers [lst], where each lst contains N number of elements, and that sum up to K: use this:

# Python3 program to find all pairs in a list of integers with given sum  
from itertools import combinations 

def findPairs(lst, K, N): 
    return [pair for pair in combinations(lst, N) if sum(pair) == K] 

#monthly cost range; unique numbers
lst = list(range(10, 30))
#sum of annual revenue per machine/customer
K = 200
#number of months (12 - 9 = num months free)
N = 9

print('Possible monthly subscription costs that still equate to $200 per year:')
#print(findPairs(lst, K, N)) 
findPairs(lst,K,N)

Results:

Possible monthly subscription costs that still equate to $200 per year:
Out[27]:
[(10, 11, 20, 24, 25, 26, 27, 28, 29),
 (10, 11, 21, 23, 25, 26, 27, 28, 29),
 (10, 11, 22, 23, 24, 26, 27, 28, 29),

The idea/question behind this was "how much can we charge per month if we give x number of months free and still meet revenue targets".