# Comparing two large lists in python

I have one list which contains about 400 words. And another list of lists, in which each list contains about 150,000 words. This list has 20 such lists.

Now I want to see how many of these 400 words appear in all of these 150,000 words list. I also want to know a word from this 400 words, appear how many times in 150k words list, which of these words occur most, how many times etc.

Only solution I can think of is polynomial time solution. It is a very bad solution and will be hell lot slow:

``````for one_list in list_of_150kwords:
for key in 400_words:
for word in one_list:
if key == word:
# count this word
# do other stuff
``````

This is a very ugly and bad solution, but I can't think of any better. I tried the same with NumPy by converting these lists to NumPy arrays:

``````list_of_150kwords = numpy.array(list_of_150kwords)
...
``````

But I still find it very slow. Any other solution? Or any library?

-

This sounds like a good opportunity for using a `set`:

``````set_of_150kwords = set(list_of_150kwords)
one_set = set(one_list)

len(one_set & set_of_150kwords) # set intersection is &
=> number of elements common to both sets
``````

As per set theory, the intersection of two sets gives the elements that appear in both sets, then it's a simple matter of taking its length. For the second part (which of these words occur most, how many times etc.) Create a `Counter` with `list_of_150kwords`, That will tell you how many times each word appears in the list. And the intersection set will tell you which are the common words, solving both of your requirements.

-
oh, I haven't tried set. Are they faster than NumPy? let me run and see –  avi Feb 15 '14 at 18:19
I believe `set` and `Counter` are the right tool for the job here, more than `numpy` arrays. –  Óscar López Feb 15 '14 at 18:22
but how can I count a word from `one_list` appears how many times in `set_of_150kwords`? –  avi Feb 15 '14 at 18:26
Oh yes, figured out after reading about Counter. I just saw the edited answer. –  avi Feb 15 '14 at 18:35
@avi, numpy doesn't really provide the things to help you here. For a numpy-like solution which provides the functionality, you'd use pandas. For the data you're describing, which is pretty small, the above method is likely fine. –  Mike Graham Feb 15 '14 at 18:48
``````from collections import Counter

search_data = [
["list", "of", "150k", "words"],
["another", "list", "of", "150k", "words"],
["yet", "another", "list", "of", "150k", "words"]
# ... 17 more of these
]

search_words = ["four", "hundred", "words", "to", "search", "for"]

def word_finder(words_to_find):
lookfor = set(word.lower() for word in words_to_find)
def get_word_count(text):
return Counter(word for word in (wd.lower() for wd in text) if word in lookfor)
return get_word_count

def get_words_in_common(counters):
# Maybe use c.viewkeys() instead of set(c)? Which is faster?
return reduce(operator.and_, (set(c) for c in counters))

def main():
wordcount = word_finder(search_words)
counters = [wordcount(wordlst) for wordlst in search_data]
common_to_all = get_words_in_common(counters)
print(common_to_all)

if __name__=="__main__":
main()
``````
-
"Maybe use c.viewkeys() instead of set(c)? Which is faster?" <- don't wonder and don't care. If the code runs too slow, profile. If this is the slow part, test. Until then, write code that is as readable as possible. –  Mike Graham Feb 15 '14 at 21:00

This is the canonical example of a place where a Trie will be useful. You need to create a Trie for each of your 150K lists. Then you can check whether a given word exists in the list in O(W) time. where W is the max length of the word.

Then you can loop through the list of 400 words and check whether each work is in the 150K word list.

Given that L i.e. number of 150K lists is much smaller than 150K and W is much smaller than 150K no set join will ever be as fast as a Trie comparison.

The final running complexity:

``````N = 400 //Size of small list
W = 10 // Max word Length
M = 150K // Max size of the 150K lists
P = 4 // Number of 150K lists

P * M // To construct Trie
N * P * W // To find each word in the 150k lists
MP + NPW // Total complexit
``````
-

Classic Map Reduce Problem.... http://sist.sysu.edu.cn/~wuweig/DSCC/Inverted%20Indexing%20by%20MapReduce.pdf

-
This does not provide an answer to the question. To critique or request clarification from an author, leave a comment below their post. –  LaurentG Feb 17 '14 at 7:41