I have two lists with usernames and I want to calculate the Jaccard similarity. Is it possible?

This thread shows how to calculate the Jaccard Similarity between two strings, however I want to apply this to two lists, where each element is one word (e.g., a username).

9 Answers 9


I ended up writing my own solution after all:

def jaccard_similarity(list1, list2):
    intersection = len(list(set(list1).intersection(list2)))
    union = (len(set(list1)) + len(set(list2))) - intersection
    return float(intersection) / union
  • 4
    The function will always return 0.0
    – xyd
    Commented Jul 27, 2018 at 17:35
  • @xyd Works perfect for me. Can you please explain?
    – Aventinus
    Commented Nov 12, 2019 at 10:55
  • Worth noting this calculation is different than the answer by @w2bo as this one does not divide by the set length union.
    – Union find
    Commented Dec 3, 2019 at 21:14
  • This answer is wrong. For example, jaccard_similarity([1], [0, 1]) -> 0.5 and jaccard_similarity([1, 1], [0, 1, 1]) -> 0.25 however second one should be as similar or more similar than first one based on how you define the jaccard. Commented Jan 5, 2021 at 18:34
  • 4
    The solution is simple and elegant, but not 100% correct. You should change the corresponding line to : union = (len(set(list1)) + len(set(list2))) - intersection
    – Amir
    Commented Feb 1, 2021 at 8:40

For Python 3:

def jaccard_similarity(list1, list2):
    s1 = set(list1)
    s2 = set(list2)
    return float(len(s1.intersection(s2)) / len(s1.union(s2)))
list1 = ['dog', 'cat', 'cat', 'rat']
list2 = ['dog', 'cat', 'mouse']
jaccard_similarity(list1, list2)
>>> 0.5

For Python2 use return len(s1.intersection(s2)) / float(len(s1.union(s2)))

  • 4
    This will also give 0.0 as result. Return statement should be modified : return float(len(s1.intersection(s2))) / float(len(s1.union(s2))) Commented May 13, 2019 at 9:35
  • For Python2 use: return float(len(s1.intersection(s2))) / len(s1.union(s2))
    – seralouk
    Commented Jul 31, 2019 at 10:00

@aventinus I don't have enough reputation to add a comment to your answer, but just to make things clearer, your solution measures the jaccard_similarity but the function is misnamed as jaccard_distance, which is actually 1 - jaccard_similarity

  • 1
    Thank you for the tip! I did not know that. I edited the answer accordingly.
    – Aventinus
    Commented Jun 13, 2018 at 21:45

Assuming your usernames don't repeat, you can use the same idea:

def jaccard(a, b):
    c = a.intersection(b)
    return float(len(c)) / (len(a) + len(b) - len(c))

list1 = ['dog', 'cat', 'rat']
list2 = ['dog', 'cat', 'mouse']
# The intersection is ['dog', 'cat']
# union is ['dog', 'cat', 'rat', 'mouse]
words1 = set(list1)
words2 = set(list2)
jaccard(words1, words2)
>>> 0.5

You can use the Distance library

#pip install Distance

import distance

distance.jaccard("decide", "resize")

# Returns
  • This answer describes how to get the Jaccard similarity between two strings which is not what this question is about.
    – Aventinus
    Commented Sep 28, 2022 at 8:25

@Aventinus (I also cannot comment): Note that Jaccard similarity is an operation on sets, so in the denominator part it should also use sets (instead of lists). So for example jaccard_similarity('aa', 'ab') should result in 0.5.

def jaccard_similarity(list1, list2):
    intersection = len(set(list1).intersection(list2))
    union = len(set(list1)) + len(set(list2)) - intersection

    return intersection / union

Note that in the intersection, there is no need to cast to list first. Also, the cast to float is not needed in Python 3.


Creator of the Simphile NLP text similarity package here. Simphile contains several text similarity methods, Jaccard being one of them.

In the terminal install the package:

pip install simphile

Then your code could be something like:

from simphile import jaccard_list_similarity

list_a = ['cat', 'cat', 'dog']
list_b = ['dog', 'dog', 'cat']

print(f"Jaccard Similarity: {jaccard_list_similarity(list_a, list_b)}")

The output being:

Jaccard Similarity: 0.5

Note that this solution accounts for repeated elements -- critical for text similarity; without it, the above example would show 100% similarity due to the fact that both lists as sets would reduce to {'dog', 'cat'}.


If you'd like to include repeated elements, you can use Counter, which I would imagine is relatively quick since it's just an extended dict under the hood:

from collections import Counter
def jaccard_repeats(a, b):
    """Jaccard similarity measure between input iterables,
    allowing repeated elements"""
    _a = Counter(a)
    _b = Counter(b)
    c = (_a - _b) + (_b - _a)
    n = sum(c.values())
    return n/(len(a) + len(b) - n)

list1 = ['dog', 'cat', 'rat', 'cat']
list2 = ['dog', 'cat', 'rat']
list3 = ['dog', 'cat', 'mouse']     

jaccard_repeats(list1, list3)      
>>> 0.75

jaccard_repeats(list1, list2) 
>>> 0.16666666666666666

jaccard_repeats(list2, list3)  
>>> 0.5
  • I think this solution is not correct as regards repeated items. However, it works ok for lists with non-repeated items.
    – AlessioX
    Commented Feb 20, 2019 at 7:37
  • I think that this is distance, so if one want similarity, '1 - ' should be removed from return line. Commented Apr 26, 2019 at 12:49

To avoid repetition of elements in the union (denominator), and a little bit faster I propose:

def Jaccar_score(lista1, lista2):    
    inter = len(list(set(lista_1) & set(lista_2)))
    union = len(list(set(lista_1) | set(lista_2)))
    return inter/union

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