So, I realize that this covers a wide array of topics and pieces of them have been covered before on StackOverflow, such as this question. Similarly, Partial String Matching and Approximate String Matching are popular algorithmic discussions, it seems. However, using these ideas in conjunction to suit a problems where both need to be discussed seems highly inefficient. I'm looking for a way to combine the two problems in to one solution, efficiently.
Right now, I'm using AppEngine with Java and the Persistent DataStore. This is somewhat annoying, since it doesn't seem to have any arithmetic usage in the queries to make things easier, so I'm currently considering doing some precalculation and storing it as an extra field in the database. Essentially, this is the idea that a friend and I were having on how to possibly implement a system for matching and I was more or less hoping for suggestions on how to make it more efficient. If it needs to be scrapped in favor of something better that already exists, I can handle that, as well.
Let's start off with a basic example of what I'd look to do a search for. Consider the following nonsense sentence:
The isolating layer rackets the principal beneath your hypocritical rubbish.
If a user does a search for
I would think that this would be a fairly good starting match for the string, and the value should be returned. The current method that we are considering using basically assigns a value to test divisibility. Essentially, there is a table with the following data
A: 2 B: 3 C: 5 D: 7 E: 11 F: 13 ...
with each character being mapped to a prime number (multiple characters don't make a difference, only one character is needed). And if the query string divides the string in the database, then the value is returned as a possible match.
After this, keywords that aren't listed as stopwords are compared from the search string to see if they are starting substrings of words in the possible match under a given threshold of an edit distance (currently using the Levenshtein distance).
distance("isalatig", "isolating") == 2 distance("pri", "principal") == 0 // since principal has a starting // substring of pri it passes
The total distance for each query is then ranked in ascending order and the top
n values are then returned back to the person doing the querying.
This is the basic idea behind the algorithm, though since this is my first time dealing with such a scenario, I realize that I'm probably missing something very important (or my entire idea may be wrong). What is the best way to handle the current situation that I'm trying to implement. Similarly, if there are any utilities that AppEngine currently offers to combat what I'm trying to do, please let me know.