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I want to find out wheather a string has single mismatch.

ACRPG0182F v/s ACRPG0812F
ACNPA4428K v/s ACHPA4428K

ACRPG0182F v/s ACRPG0812
ACRPG0182F v/s CRPG0812F

In case 1 both string length is same but it has 1 character mismatch
In case 2 both string length differ by 1 and any one character can be mismatched in both String.

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any information on expected length of those strings? –  hovanessyan Feb 17 '12 at 13:52
in case 1 length of both string is same and in case 2 the string differ by 1 letter –  Abhij Feb 17 '12 at 13:57
I mean if you don't want algorithm that will work fast enough on 30000 char Strings, you can go with straight and simple solutions (iter all the way all Strings). –  hovanessyan Feb 17 '12 at 14:00
Just to clarify - in the 2nd case the strings are 1 character different in length, and have the same characters in (except the one missing one). Is that what you want to catch; same characters and a length one shorter? –  Disco 3 Feb 17 '12 at 14:02

4 Answers 4

  • get the number using regex (\d+)
  • fill a Set with all characters (numberStr.toCharArray())
  • use guava Sets - Sets.difference(set1, set2) and see if it has exactly one element

Originally I thought you need to check the difference in a different way: whether only one digit is different, rather than "the string contains only one different digit, regardless of the order". If order is also important, just calculate the levenshtein distance and see if it's equal to 1.

StringUtils.getLevenshteinDistance(s1, s2) from commons-lang will do it.

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If you apply the examples from the question on this link you get a distance of 2. Not sure it will be enough for the need. –  foch Feb 17 '12 at 14:09
you even get 3. That's why I added the Sets.difference solution –  Bozho Feb 17 '12 at 14:10

As mentioned by Bozho, using the levenstein distance is probably the most direct route to solving your problem. The definition from that page appears to be exactly what you're asking for.

Levenshtein distance (LD) is a measure of the similarity between two strings, which we will refer to as the source string (s) and the target string (t). The distance is the number of deletions, insertions, or substitutions required to transform s into t.

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as I look more into his examples, this won't work. He needs a different logic –  Bozho Feb 17 '12 at 13:56
From the way I'm reading his question, yes and no. It seems like he needs a levenstein distance of 1 OR a distance of 2 where the two items in question are effectively swapping letters with each other. Depending on the input, using the levenstein algorithm to filter down the inputs to only those with 1-2 distance, then analyzing the 2s to check for the additional constraint seems like a reasonable way to go. –  RHSeeger Feb 17 '12 at 14:03

Define an Xor function on strings.

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That sounds like a Levenshtein distance of 1, take a look at the algorithm in the link.

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as I look more into his examples, this won't work. He needs a different logic –  Bozho Feb 17 '12 at 13:57

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