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Is there a method to calculate something like general "similarity score" of a string? In a way that I am not comparing two strings together but rather I get some number (hash) for each string that can later tell me that two strings are or are not similar. Two similar strings should have similar (close) hashes.

Let's consider these strings and scores as an example:

Hello world                1000
Hello world!               1010
Hello earth                1125
Foo bar                    3250
FooBarbar                  3750
Foo Bar!                   3300
Foo world!                 2350

You can see that Hello world! and Hello world are similar and their scores are close to each other.

This way, finding the most similar strings to a given string would be done by subtracting given strings score from other scores and then sorting their absolute value.

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What do you mean by 'similar'? Are 'hello world', 'world hello' and 'dlrow olleh' similar? If so, or if not, why? – smirkingman Dec 1 '10 at 15:18
What happens when more than two strings are equidistant from each other? You can't model that with a 1-dimensional score. – mbeckish Dec 1 '10 at 18:05
@smirkingman It does not matter, I was thinking mainly about the general similarity score concept. But let's say similar as in Levenshtein. – Josef Sábl Dec 2 '10 at 7:41
Hello, I am also very interested in this problem. Did you get any progress on this problem? – Bloodmoon Jan 13 '14 at 9:05

I believe what you're looking for is called a Locality Sensitive Hash. Whereas most hash algorithms are designed such that small variations in input cause large changes in output, these hashes attempt the opposite: small changes in input generate proportionally small changes in output.

As others have mentioned, there are inherent issues with forcing a multi-dimensional mapping into a 2-dimensional mapping. It's analogous to creating a flat map of the Earth... you can never accurately represent a sphere on a flat surface. Best you can do is find a LSH that is optimized for whatever feature it is you're using to determine whether strings are "alike".

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This isn't possible, in general, because the set of edit distances between strings forms a metric space, but not one with a fixed dimension. That means that you can't provide a mapping between strings and integers that preserves a distance measure between them.

For example, you cannot assign numbers to these three phrases:

  • one two
  • one six
  • two six

Such that the numbers reflect the difference between all three phrases.

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I'm going to get a little Information Theory-y here and argue that you have actually just done what you claim is impossible. Each of those strings can be represented as a binary number (ie integer), and you have just proven that you're able to identify structure in that number that describes what you call "difference". I think the question really being asked is, is there a simpler set of numbers we could map strings to that would, without loss, represent the complete set of possible relationships. This is essentially the Kolmogorov complexity of the search space. – DougW Jan 18 '12 at 19:43
Clearly it's impossible to have a lower Kolmogorov complexity for arbitrary strings with arbitrary definitions of "alike". I would argue that it is, however, entirely possible that you could reduce that complexity by restricting the set or definition (ie, only English language strings). It's possible that the complexity of that question is vastly smaller than the complexity of the unbounded one and, possibly, mappable to a smaller integer space. – DougW Jan 18 '12 at 19:48
@DougW I'm afraid I don't follow your argument. Komologorov complexity is irrelevant here; the issue is dimensionality. Can you assign a number to each of those phrases such that the distance between the numbers reflects the edit distance between the strings? – Nick Johnson Jan 19 '12 at 0:32
Yeah it's a lot to type into a comment! My point is that "integers" in this case need not be restricted to single dimensional, linear comparisons as you're suggesting. The reductio ad absurdum of your statement is that you yourself have already given "numbers" which contain all the dimensionality necessary to make any comparison you want. However that is the extreme. What if we could map the ENTIRE space of string characteristics we care about to two bits, where each bit represented some relationship dimension? Probably we can't, but what about 3 bits? 4? Where do we draw the line? – DougW Jan 19 '12 at 18:18
This is where the K complexity comes into play. If we consider "likeness" to be "the number of letter As", then the complexity of that space is small enough to map to an easily understood number. As we increase the complexity of our definition of "like", the K complexity of the problem space increases, and the representation becomes more complex as well. We may reduce this complexity by discarding unimportant information. It's very much like representing the Earth on a 2D map. We can map to lower dimensions at the expensive of information and still approximate the info we care about. – DougW Jan 19 '12 at 18:28

While the idea seems extremely sweet... I've never heard of this.

I've read many, many, technics, thesis, and scientific papers on the subject of spell correction / typo correction and the fastest proposals revolve around an index and the levenshtein distance.

There are fairly elaborated technics, the one I am currently working on combines:

  • A Bursted Trie, with level compactness
  • A Levenshtein Automaton

Even though this doesn't mean it is "impossible" to get a score, I somehow think there would not be so much recent researches on string comparisons if such a "scoring" method had proved efficient.

If you ever find such a method, I am extremely interested :)

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+1 I'm interested too :-) – ringø Dec 1 '10 at 17:47

Would Levenshtein distance work for you?

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It is exactly what it is: distance. It doesn't give you any characteristic to one string, it can be used only to compare two particular strings. – Nikita Rybak Dec 1 '10 at 12:03
Nikita is right, that's the problem. Other than that, it would be just what I need. – Josef Sábl Dec 1 '10 at 13:10
A one-dimensional "characteristic" won't work, because if distance(a,b) = 1 and distance(b,c) = 1, it does not follow that distance(a,c) = 2. What are you really trying to do? – Karl Knechtel Dec 1 '10 at 13:46
Distance is not hash! – Ali Dec 10 '12 at 22:31
i was looking for something like this but now i doubt that it's possible because it's Levenshtein distance and it's not similar to euclidean distance where dist(a,c) = dist(a,b) +/- dist(b,c). – Alvin Dec 9 '13 at 11:42

Your idea sounds like ontology but applied to whole phrases. The more similar two phrases are, the closer in the graph they are (assuming you're using weighted edges). And vice-versa: non similar phrases are very far from each other.

Another approach, is to use Fourier transform to get sort of the 'index' for a given string (it won't be a single number, but always). You may find little bit more in this paper.

And another idea, that bases on the Levenshtein distance: you may compare n-grams that will give you some similarity index for two given phrases - the more they are similar the value is closer to 1. This may be used to calculate distance in the graph. wrote a paper on this a few years ago, if you'd like I can share it.

Anyways: despite I don't know the exact solution, I'm also interested in what you'll came up with.

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I think of something like this:

  1. remove all non-word characters
  2. apply soundex
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Not bad, but: a) my strings don't contain only words, b) I will get soundexes, ok, but how do I compare if they are similar :-) – Josef Sábl Dec 1 '10 at 13:05

It is unlikely one can get a rather small number from two phrases that, being compared, provide a relevant indication of the similarity of their initial phrases.
A reason is that the number gives an indication in one dimension, while phrases are evolving in two dimensions, length and intensity.

The number could evolve as well in length as in intensity but I'm not sure it'll help a lot.

In two dimensions, you better look at a matrix, which some properties like the determinant (a kind of derivative of the matrix) could give a rough idea of the phrase trend.

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Maybe use PCA, where the matrix is a list of the differences between the string and a fixed alphabet (à la ABCDEFGHI...). The answer could be simply the length of the principal component.

Just an idea.

ready-to-run PCA in C#

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Well, you could add up the ascii value of each character and then compare the scores, having a maximum value on which they can differ. This does not guarantee however that they will be similar, for the same reason two different strings can have the same hash value.

You could of course make a more complex function, starting by checking the size of the strings, and then comparing each caracter one by one, again with a maximum difference set up.

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