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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

39

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
5
  • 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
32

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)))

2
  • 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
14

@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
  • 1
    Thank you for the tip! I did not know that. I edited the answer accordingly.
    – Aventinus
    Commented Jun 13, 2018 at 21:45
7

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
4

You can use the Distance library

#pip install Distance

import distance

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

# Returns
0.7142857142857143
1
  • 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
3

@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.

2

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'}.

1

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
2
  • 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
1

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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