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I am trying to compare two lists of names and addresses to see find unique data. I can easily extract out all those are are exactly the same string in both lists, then I am left with names and addresses that are different but may be the same people. ie:

entry in list 1 Smith J Ph234567 34 Smith st

entry in list 2 Smith John Ph234567 34 Smith st

or

entry in list 1 Smith J Ph234567 34 Smith Rd

entry in list 2 Smith J Ph234567 34 Smith Road

I want to add a tag to entries that seem to be similar with each other like 80% match.

Nested Foreach loops don't work as they match every word, or letter (depending how you write it in the string with every other word or letter.

For loops don't work as one change J vrs John creates errors for every entry after the change.

I am writing it in vb.net but can also translate from C#

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up vote 5 down vote accepted

This kind of problem is generally solved by calculating the edit distance between the strings. Start with the Levenshtein distance for instance.

This will give you a score (the number of “edit operations” necessary to transform one string into the other). To convert this into a percent identity you need to normalise it by the length of the larger string (something along the lines of percent = (largerString.Length - editDistance) / largerString.Length).

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Thanks thats exactly what I need :-) I even found a link for it dotnetperls.com/levenshtein-vbnet – netchicken Mar 13 '13 at 23:57
    
Can be good, but pretty slow if you're comparing lots of items. This looks interesting: stevehanov.ca/blog/index.php?id=114 – spender Mar 14 '13 at 0:02
1  
@spender There are efficient implementations but ultimately you will simply not get below O(nm) runtime. This is provably the asymptotically best you can do. Index data structures start making sense when you compare the same reference against lots of instances. – Konrad Rudolph Mar 14 '13 at 0:03
    
May I ask, where do you get that formula? – AnhTriet Feb 12 '14 at 12:37
    
@Forte_201092 I didn’t get it anywhere, I derived it myself. It’s not very hard. – Konrad Rudolph Feb 12 '14 at 13:37

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