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I have 200,000 strings. I need to find the similar strings among that set. I expect the number of similar strings to be very low in the set. Please help out with an efficient data structure.

I can use a simple hash if I am looking for exact matching strings. But, 'similarity' is custom defined in my case: two strings are treated similar if 80% of the chars in them are same, order does not matter.

I don't want to call the function finding "similarity" ~(200k*100k) times. Any suggestions like techniques to preprocess the strings, efficient data structures are welcome. Thanks.

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what are the lengths of the strings, average versus minimum and maximum? you could make a histogram, where each string has a histogram rank, and then you can simply group them together by a ratio, in this case, 80% –  Inbar Rose Dec 27 '12 at 8:59
'cat' has 100% similarity with abracatabra in your description but 'abracatabra' has less than 80% with 'cat'. Is that correct? My point is that the "similarity" is not very well defined. –  ypercube Dec 27 '12 at 9:05
The first thing I thought of was not comparing. How about hash function. I did a little search on stackoverflow,… –  CppLearner Dec 27 '12 at 9:10
If you are going to compare each string using this function, you can use for str1, str2 in itertools.combinations(string_list, 2): match = jaro(str1, str2) > 0.85 –  Alex L Dec 27 '12 at 10:06
Perhaps you could use suffix tree clustering, or at least explore related algorithms? –  Alex L Dec 27 '12 at 10:27

1 Answer 1

up vote 1 down vote accepted

I learnt that >=0.85 distance ratio is possible only if the string-length difference between two strings is <=3. That means, we can group the strings with length difference <=3.

This drastically reduced the number of string in each group. So, the number of overall comparisons are reduce to slight less than 50% (of 200k*100k) in my data set. Moreover, dividing the the data set into multiple small sets helps to do parallel-processing which further reduces the overall runtime.

Reduction percentage might vary with the sample data set, i.e. worst case happens when all the string are with length difference <=3.

[Thanks to Inbar Rose for stimulating this thought]

In my case, the histogram looked as below:


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