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consider I have a

string1 = "hello hi goodmorning evening [...]"

and I have some minor keywords

compare1 = "hello evening"
compare2 = "hello hi"

I need a function that returns the affinity between the text and keywords. Example:

function(string1,compare1);  // returns: 4
function(string1,compare2);  // returns: 5 (more relevant)

Please note 5 and 4 are just for example.

You could say - write a function that counts occurrences - but for this example this would not work because both got 2 occurrences, but compare1 is less relevant because "hello evening" isn't exactly found in string1 (the 2 words hello and evening are more distant than hello hi)

are there any known-algorithm to do this?


algos like Edit Distance in this case would NOT work. Because string1 is a complete text (like 300-400 words) and the comparing strings are max 4-5 word.

share|improve this question
Are you looking for simple string edit-distance comparison or full on semantic equivalence? e.g. is cat more similar to cart or feline? – Ian Mercer Jan 24 '11 at 23:26
none of both.. I would need something like count occurences+give weight based on the words distances (as i explained previos: string1 is an article with 300-400words and the comparing strings are just 3-4 words) – dynamic Jan 24 '11 at 23:42
Do your keywords always come in pairs? What's more important, having more matching words or better proximity? – Michael J. Barber Jan 27 '11 at 10:11
1. not always in pairs, the comparing string can be up to 5-6 words 2. 50%-50% – dynamic Jan 31 '11 at 23:29
up vote 8 down vote accepted

A Dynamic Programing Algorithm

It seems what you are looking for is very similar to what the Smith–Waterman algorithm does.

From Wikipedia:

The algorithm was first proposed by Temple F. Smith and Michael S. Waterman in 1981. Like the Needleman-Wunsch algorithm, of which it is a variation, Smith-Waterman is a dynamic programming algorithm. As such, it has the desirable property that it is guaranteed to find the optimal local alignment with respect to the scoring system being used (which includes the substitution matrix and the gap-scoring scheme).

Let's see a practical example, so you can evaluate its usefulness.

Suppose we have a text:

text = "We the people of the United States, in order to form a more 
perfect union, establish justice, insure domestic tranquility, 
provide for the common defense, 

  promote the general welfare, 

  and secure the blessings of liberty to ourselves and our posterity, 
do ordain and establish this Constitution for the United States of 

I isolated the segment we are going to match, just for your easy of reading.

We will compare the affinity (or similarity) with a list of strings:

list = {
   "the general welfare",
   "my personal welfare",
   "general utopian welfare",
   "the general",
   "promote welfare",
   "stackoverflow rulez"

I have the algorithm already implemented, so I'll calculate the similarity and normalize the results:

sw = SmithWatermanSimilarity[ text, #] & /@ list;
swN = (sw - Min[sw])/(Max[sw] - Min[sw])  

Then we Plot the results:

enter image description here

I think it's very similar to your expected result.


Some implementations (w/source code)

share|improve this answer
This might be the solution! But why ur function is called "SmithWatermanSimilarity" and not just "SmithWaterman": I mean do you have some customization? Anyway do you have a pseudocode description for this? So I can translate in my language (php) – dynamic Feb 3 '11 at 18:16
@yes123 At the end of my answer there are a few links (you may find a lot) including three implementations and two "educative" resources. I can't provide mine because it isn't open source. – Dr. belisarius Feb 3 '11 at 18:22
Ah ok. Maybe I will try the cuda or java implementation to see if it fits my needs (like your solution). If I will translate to php I will post a link here, thanks – dynamic Feb 3 '11 at 19:17
I am testing some java implementations. It seems those implementations consider chars and not the entry words. That's a big problem for me – dynamic Feb 3 '11 at 19:37
@yes123 it works well with words too, try it. It is designed to match DNA sequences that are like words – Dr. belisarius Feb 3 '11 at 20:13

Take a look into creating N-grams out of your input data and then matching on the N-grams. I have a solution where I regard each n-gram as a dimension in a vector space (which becomes a space of 4000 dimensions in my case) and then affinity is the cosine of the angle between two vectors (the dot-product is involved here).

The hard part is to come up with a metric defining the affinity in a way you want.

An alternative is to look at a sliding window and score based on how many words in your compare_x data is in the window. The final score is the sum.

share|improve this answer
Hm even if it's interesting i dont think u can use this sliding window because you cant choose a winodws size that alyawys works imo. I was thinking something more like this: first counts only occorunces then remove some points based on how much chars there are between found keys. But i cannot belive there isnt already a known algo for this job... Its so important in search-related stuff. Regsrding other solution using ngrams i dont have a clear idea on how to make it – dynamic Jan 25 '11 at 2:14
There is no clear-cut solution because different metrics are wanted for different purposes. – I GIVE CRAP ANSWERS Jan 25 '11 at 12:39
why you say that? I am pretty sure someone else already wrote algos for this (i don't think it would be too hard) I found some mathematics solution to the problem here:… At page 31 there is a solution "For every term t of a query q= {t1, . . . , tn}, we compute an accumulator acc that contains proximity score of t within the current element e:" – dynamic Jan 25 '11 at 16:01

py-editdist will give you the Levenshtein edit distance between two strings, which is one metric that might be helpful.


The code example from that page:

import editdist

# Calculate the edit distance between two strings
d = editdist.distance("abc", "bcdef")


share|improve this answer
edit-distances would not work, read my adds on first post – dynamic Jan 24 '11 at 23:42
@yes123 have you actually tried Levenshtein? – smirkingman Jan 31 '11 at 16:11
yes it of course sux because i am not comparing 2 words – dynamic Feb 1 '11 at 9:58

I think there is a pretty good and complete answer to this question here

Sorry its on google answers!

share|improve this answer
Half of the link on that page don't work. And the other half don't speak at all about proximity – dynamic Feb 2 '11 at 10:16
If you mean proximity, as in meaning, – macarthy Feb 3 '11 at 23:29

Here you can find a list of metrics to calculate distance between strings, and an opensource java library that just do that. In particular, take a look at the Smith–Waterman algorithm, keeping in mind that what they call "Alphabet" can be composed by what we call Strings : so, given the alphabet

{A = "hello", B = "hi",C = "goodmorning",D = "evening"}

and called d the distance, your function tries to calculate

d(ABCD,AB) vs d(ABCD,AC)
share|improve this answer
HM, I read Smith–Waterman works great on characters.. I need this algo for text =/ – dynamic Jan 31 '11 at 9:26
As pointed out before, think at each word as a consant char, and you should be done – kaharas Jan 31 '11 at 12:06
Hm so I should build my Alphabet based on my text and my comparing string and give them to the algos? I am not sure it can work because algos supports stuff like "insertion"/"deletion" that work for chars – dynamic Jan 31 '11 at 13:28

Well, you can count the occurrences of pieces of the comparing text, ie:

"a-b-c" -> "a" , "b" , "c" , "a-b" ," b-c" , "a-b-c" (possible "a-c", if you wanted that)

And then count occurrences of each of those, and sum them, possibly with a weight of (length of string) / (length of whole string).

Then you just need a way to produce those pieces, and run a check for all of them.

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While the Levenshtein distance as it stands may not suit your purposes, a modification of it might: Try implementing it by storing the insertions, deletions, and substitutions separately.

The distance will then be the sum of the following:

  • All Substutions
  • The number of spaces minus one in each set of consecutive insertions/deletions:
    • (In your case: " hi goodmorning " only counts as two edits, and ' [...] ' counts as one.)

You'd have to test this, of course, but if it doesn't work well try simply using the sum of consecutive insertions/deletions (so, " hi good morning " is only 1 edit).


P.S.: this assumes a relatively major change to how Levenshtein works, you'd want to 'align' your data first (finding out where there's significant (more than two characters) overlap and inserting 'null' characters that would count as insertions).

Also, this is just an untested idea, so any ideas for improvements are welcome.

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