I have two lists in python list_a and list_b. The list_a have some images links, and the list_b too. 99% of the items are the same, but i have to know this 1%. The all surplus items are in list_a, that means all items in list_b are in list_a. My initial idea is subtract all items: list_a - list_b = list_c, where the list_c are my surplus items. My code is:

list_a = []
list_b = []
list_c = []

arq_b = open('list_b.txt','r')
for b in arq_b:

arq_a = open('list_a.txt','r')
for a in arq_a:
    if a not in arq_b:

arq_c = open('list_c.txt','w')
for c in list_c:

I think the logic is right, if i have some items, the code is run fast. But i dont have 10 items, or 1.000, or even 100.000. I have 78.514.022 items in my list_b.txt and 78.616.777 in my list list_a.txt. I dont't know the cost of this expression: if a not in arq_b. But if i execute this code, i think wont finish in this year.

My pc have 8GB, and i allocate 15gb for swap to not explode my RAM.

My question is, there's another way to make this operation more efficiently(Faster)?

  • The list_a is ordinate but the list_b not.
  • Each item have this size: images/00000cd9fc6ae2fe9ec4bbdb2bf27318f2babc00.png
  • The order doesnt matter, i want know the surplus.
  • 5
    Does the order matter? If not, try using sets. With sets, subtraction should be linear: set_c = set_a - set_b.
    – L3viathan
    Jan 10, 2019 at 12:37
  • But is possible make this in python? Jan 10, 2019 at 12:39
  • The python will use the most efficient way to make this operation? Jan 10, 2019 at 12:40
  • 1
    Yes, I mean the Python datatype set.
    – L3viathan
    Jan 10, 2019 at 12:40
  • 1
    @tripleee It's not a duplicate of that - that question is about mapping subtraction over a list, this question is about the difference between what's included in the lists. Jan 10, 2019 at 12:48

4 Answers 4


you can create one set of the first file contents, then just use difference or symmetric_difference depending on what you call a difference

with open("list_a.txt") as f:
    set_a = set(f)

with open("list_b.txt") as f:
    diffs = set_a.difference(f)

if list_b.txt contains more items than list_a.txt you want to swap them or use set_a.symmetric_difference(f) instead, depending on what you need.

difference(f) works but still has to construct a new set internally. Not a great performance gain (see set issubset performance difference depending on the argument type), but it's shorter.

  • Nice, this avoids having to allocate space for the second set.
    – L3viathan
    Jan 10, 2019 at 12:54
  • 1
    Well, not really, because internally a set is created, then thrown away. but it's thrown away faster Jan 10, 2019 at 12:54
  • But the complexity is the same of subtract sets? Jan 10, 2019 at 13:00
  • @ViniciusMorais The time complexity is the same, the space complexity (apparently), too.
    – L3viathan
    Jan 10, 2019 at 13:45
  • 1
    @L3viathan In case the original list (the original set) is not needed anymore you can use difference_update. This should not require to allocate a new set internally.
    – a_guest
    Jan 10, 2019 at 14:33

Try using sets:

with open("list_a.txt") as f:
    set_a = set(f)

with open("list_b.txt") as f:
    set_b = set(f)

set_c = set_a - set_b

with open("list_c.txt","w") as f:
    for c in set_c:

The complexity of subtracting two sets is O(n) in the size of the set a.

  • 2
    You know - an open file is an iterator - therefore you can simply do set_a = set(open("list_a.txt"))
    – jsbueno
    Jan 10, 2019 at 12:47
  • 11
    yes but doing set(f) in with block ensures that it closes the file Jan 10, 2019 at 12:50

To extend the comment of @L3viathan If order of element is not important set is the rigth way. here a dummy example you can adapt:

l1 = [0,1,2,3,4,5]
l2 = [3,4,5]
setL1 = set(l1)  # transform the list into a set
setL2 = set(l2)
setDiff = setl1 - setl2  # make the difference 
listeDiff = list(setDiff)  # if you want to have your element back in a list

as you see is pretty straightforward in python.


In case order matters you can presort the lists together with item indices and then iterate over them together:

list_2 = sorted(list_2)
diff_idx = []
j = 0
for i, x in sorted(enumerate(list_1), key=lambda x: x[1]):
    if x != list_2[j]:
        j += 1
diff = [list_1[i] for i in sorted(diff_idx)]

This has time complexity of the sorting algorithm, i.e. O(n*log n).

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge that you have read and understand our privacy policy and code of conduct.

Not the answer you're looking for? Browse other questions tagged or ask your own question.