Golang : How to find out similarity between two strings with Jaro-Winkler Distance?




There are times when we need to detect if a paragraph or an article has a pattern of using multiple words with high similarities. This is useful in situation such as detecting a pattern to see if it is written by a same person, multiple persons or generated by computer programs. One way to do this is to use the Jaro-Winkler Distance algorithm and the code below demonstrate how Jaro-Winkler distance is implemented.

Here you go!


 package main

 import (
  "fmt"
  "strings"
 )

 func main() {
  fmt.Printf("example - existence -> %0.5f\n", JaroWinklerDistance("example", "existence"))
  fmt.Printf("feel - fill -> %0.5f\n", JaroWinklerDistance("feel", "fill"))
  fmt.Printf("octopus -  -> %0.5f\n", JaroWinklerDistance("octopus", ""))
  fmt.Printf("stick - stix -> %0.5f\n", JaroWinklerDistance("stick", "stix"))
  fmt.Printf("top - stop -> %0.5f\n", JaroWinklerDistance("top", "stop"))
  fmt.Printf("tick - lick -> %0.5f\n", JaroWinklerDistance("tick", "lick"))
  fmt.Printf("golang - Golang -> %0.5f\n", JaroWinklerDistance("golang", "golang"))
 }

 // JaroWinklerDistance - calculate and return the Jaro-Winkler distance
 func JaroWinklerDistance(s1, s2 string) float64 {

  s1Matches := make([]bool, len(s1)) // |s1|
  s2Matches := make([]bool, len(s2)) // |s2|

  var matchingCharacters = 0.0
  var transpositions = 0.0

  // sanity checks

  // return 0 if either one is empty string
  if len(s1) == 0 || len(s2) == 0 {
 return 0 // no similarity
  }

  // return 1 if both strings are empty
  if len(s1) == 0 && len(s2) == 0 {
 return 1 // exact match
  }

  if strings.EqualFold(s1, s2) { // case insensitive
 return 1 // exact match
  }

  // Two characters from s1 and s2 respectively,
  // are considered matching only if they are the same and not farther than
  // [ max(|s1|,|s2|) / 2 ] - 1
  matchDistance := len(s1)
  if len(s2) > matchDistance {
 matchDistance = len(s2)
  }
  matchDistance = matchDistance/2 - 1

  // Each character of s1 is compared with all its matching characters in s2
  for i := range s1 {
 low := i - matchDistance
 if low < 0 {
 low = 0
 }
 high := i + matchDistance + 1
 if high > len(s2) {
 high = len(s2)
 }
 for j := low; j < high; j++ {
 if s2Matches[j] {
 continue
 }
 if s1[i] != s2[j] {
 continue
 }
 s1Matches[i] = true
 s2Matches[j] = true
 matchingCharacters++
 break
 }
  }

  if matchingCharacters == 0 {
 return 0 // no similarity, exit early
  }

  // Count the transpositions.
  // The number of matching (but different sequence order) characters divided by 2 defines the number of transpositions
  k := 0
  for i := range s1 {
 if !s1Matches[i] {
 continue
 }
 for !s2Matches[k] {
 k++
 }
 if s1[i] != s2[k] {
 transpositions++ // increase transpositions
 }
 k++
  }
  transpositions /= 2

  weight := (matchingCharacters/float64(len(s1)) + matchingCharacters/float64(len(s2)) + (matchingCharacters-transpositions)/matchingCharacters) / 3

  //  the length of common prefix at the start of the string up to a maximum of four characters
  l := 0

  // is a constant scaling factor for how much the score is adjusted upwards for having common prefixes.
  //The standard value for this constant in Winkler's work is {\displaystyle p=0.1}p=0.1
  p := 0.1

  // make it easier for s1[l] == s2[l] comparison
  s1 = strings.ToLower(s1)
  s2 = strings.ToLower(s2)

  if weight > 0.7 {
 for (l < 4) && s1[l] == s2[l] {
 l++
 }

 weight = weight + float64(l)*p*(1-weight)
  }

  return weight
 }

Output:

 example - existence -> 0.58730
 feel - fill -> 0.66667
 octopus -  -> 0.00000
 stick - stix -> 0.84833
 top - stop -> 0.91667
 tick - lick -> 0.83333
 golang - Golang -> 1.00000

Happy coding!

References :

https://en.wikipedia.org/wiki/Jaro%E2%80%93Winkler_distance

https://github.com/jordanthomas/jaro-winkler/blob/master/index.js

  See also : Golang : Levenshtein distance example





By Adam Ng(黃武俊)

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