Damerau-Levenshtein distance Implementation

2019-05-25 03:17发布

站内问答 / JavaScript
516 1 4

I'm trying to create a damerau-levenshtein distance function in JS.

I've found a description off the algorithm on WIkipedia, but they is no implementation off it. It says:

To devise a proper algorithm to calculate unrestricted Damerau–Levenshtein distance note that there always exists an optimal sequence of edit operations, where once-transposed letters are never modified afterwards. Thus, we need to consider only two symmetric ways of modifying a substring more than once: (1) transpose letters and insert an arbitrary number of characters between them, or (2) delete a sequence of characters and transpose letters that become adjacent after deletion. The straightforward implementation of this idea gives an algorithm of cubic complexity: O\left (M \cdot N \cdot \max(M, N) \right ), where M and N are string lengths. Using the ideas of Lowrance and Wagner,[7] this naive algorithm can be improved to be O\left (M \cdot N \right) in the worst case. It is interesting that the bitap algorithm can be modified to process transposition. See the information retrieval section of[1] for an example of such an adaptation.

https://en.wikipedia.org/wiki/Damerau%E2%80%93Levenshtein_distance

The section [1] points to http://acl.ldc.upenn.edu/P/P00/P00-1037.pdf which is even more complicated to me.

If I understood this correctly, it's not that easy to create an implementation off it.

Here's the levenshtein implementation I currently use :

levenshtein=function (s1, s2) {
  //       discuss at: http://phpjs.org/functions/levenshtein/
  //      original by: Carlos R. L. Rodrigues (http://www.jsfromhell.com)
  //      bugfixed by: Onno Marsman
  //       revised by: Andrea Giammarchi (http://webreflection.blogspot.com)
  // reimplemented by: Brett Zamir (http://brett-zamir.me)
  // reimplemented by: Alexander M Beedie
  //        example 1: levenshtein('Kevin van Zonneveld', 'Kevin van Sommeveld');
  //        returns 1: 3

  if (s1 == s2) {
    return 0;
  }

  var s1_len = s1.length;
  var s2_len = s2.length;
  if (s1_len === 0) {
    return s2_len;
  }
  if (s2_len === 0) {
    return s1_len;
  }

  // BEGIN STATIC
  var split = false;
  try {
    split = !('0')[0];
  } catch (e) {
    // Earlier IE may not support access by string index
    split = true;
  }
  // END STATIC
  if (split) {
    s1 = s1.split('');
    s2 = s2.split('');
  }

  var v0 = new Array(s1_len + 1);
  var v1 = new Array(s1_len + 1);

  var s1_idx = 0,
    s2_idx = 0,
    cost = 0;
  for (s1_idx = 0; s1_idx < s1_len + 1; s1_idx++) {
    v0[s1_idx] = s1_idx;
  }
  var char_s1 = '',
    char_s2 = '';
  for (s2_idx = 1; s2_idx <= s2_len; s2_idx++) {
    v1[0] = s2_idx;
    char_s2 = s2[s2_idx - 1];

    for (s1_idx = 0; s1_idx < s1_len; s1_idx++) {
      char_s1 = s1[s1_idx];
      cost = (char_s1 == char_s2) ? 0 : 1;
      var m_min = v0[s1_idx + 1] + 1;
      var b = v1[s1_idx] + 1;
      var c = v0[s1_idx] + cost;
      if (b < m_min) {
        m_min = b;
      }
      if (c < m_min) {
        m_min = c;
      }
      v1[s1_idx + 1] = m_min;
    }
    var v_tmp = v0;
    v0 = v1;
    v1 = v_tmp;
  }
  return v0[s1_len];
}

What are your ideas for building such an algorithm and, if you think it would be too complicated, what could I do to make no difference between 'l' (L lowercase) and 'I' (i uppercase) for example.

1条回答
Juvenile、少年°
2楼-- · 2019-05-25 03:58

The gist @doukremt gave: https://gist.github.com/doukremt/9473228

gives the following in Javascript.

You can change the weights of operations in the weighter object.

var levenshteinWeighted= function(seq1,seq2)
{
    var len1=seq1.length;
    var len2=seq2.length;
    var i, j;
    var dist;
    var ic, dc, rc;
    var last, old, column;

    var weighter={
        insert:function(c) { return 1.; },
        delete:function(c) { return 0.5; },
        replace:function(c, d) { return 0.3; }
    };

    /* don't swap the sequences, or this is gonna be painful */
    if (len1 == 0 || len2 == 0) {
        dist = 0;
        while (len1)
            dist += weighter.delete(seq1[--len1]);
        while (len2)
            dist += weighter.insert(seq2[--len2]);
        return dist;
    }

    column = []; // malloc((len2 + 1) * sizeof(double));
    //if (!column) return -1;

    column[0] = 0;
    for (j = 1; j <= len2; ++j)
        column[j] = column[j - 1] + weighter.insert(seq2[j - 1]);

    for (i = 1; i <= len1; ++i) {
        last = column[0]; /* m[i-1][0] */
        column[0] += weighter.delete(seq1[i - 1]); /* m[i][0] */
        for (j = 1; j <= len2; ++j) {
            old = column[j];
            if (seq1[i - 1] == seq2[j - 1]) {
                column[j] = last; /* m[i-1][j-1] */
            } else {
                ic = column[j - 1] + weighter.insert(seq2[j - 1]);      /* m[i][j-1] */
                dc = column[j] + weighter.delete(seq1[i - 1]);          /* m[i-1][j] */
                rc = last + weighter.replace(seq1[i - 1], seq2[j - 1]); /* m[i-1][j-1] */
                column[j] = ic < dc ? ic : (dc < rc ? dc : rc);
            }
            last = old;
        }
    }

    dist = column[len2];
    return dist;
}
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