// STRING TRANSFORMATION
/* jshint esversion:6, -W097 */
/* jslint esversion:6 */
/* global exports, console */
"use strict";
if (typeof(process) !== 'undefined') {
var char_player = require("./char_player.js");
}
// Note: 48 is the ASCII code for "0"
var str_transform = {
getNgrams: function (sWord, n=2) {
let lNgrams = [];
for (let i=0; i <= sWord.length - n; i++) {
lNgrams.push(sWord.slice(i, i+n));
}
return lNgrams;
},
_xTransCharsForSpelling: new Map([
['ſ', 's'], ['ffi', 'ffi'], ['ffl', 'ffl'], ['ff', 'ff'], ['ſt', 'ft'], ['fi', 'fi'], ['fl', 'fl'], ['st', 'st']
]),
spellingNormalization: function (sWord) {
let sNewWord = "";
for (let c of sWord) {
sNewWord += this._xTransCharsForSpelling.gl_get(c, c);
}
return sNewWord.normalize("NFC");
},
_xTransCharsForSimplification: new Map([
['à', 'a'], ['é', 'é'], ['î', 'i'], ['ô', 'o'], ['û', 'u'], ['ÿ', 'y'],
['â', 'a'], ['è', 'é'], ['ï', 'i'], ['ö', 'o'], ['ù', 'u'], ['ŷ', 'y'],
['ä', 'a'], ['ê', 'é'], ['í', 'i'], ['ó', 'o'], ['ü', 'u'], ['ý', 'y'],
['á', 'a'], ['ë', 'é'], ['ì', 'i'], ['ò', 'o'], ['ú', 'u'], ['ỳ', 'y'],
['ā', 'a'], ['ē', 'é'], ['ī', 'i'], ['ō', 'o'], ['ū', 'u'], ['ȳ', 'y'],
['ç', 'c'], ['ñ', 'n'],
['œ', 'oe'], ['æ', 'ae'],
['ſ', 's'], ['ffi', 'ffi'], ['ffl', 'ffl'], ['ff', 'ff'], ['ſt', 'ft'], ['fi', 'fi'], ['fl', 'fl'], ['st', 'st'],
["⁰", "0"], ["¹", "1"], ["²", "2"], ["³", "3"], ["⁴", "4"], ["⁵", "5"], ["⁶", "6"], ["⁷", "7"], ["⁸", "8"], ["⁹", "9"],
["₀", "0"], ["₁", "1"], ["₂", "2"], ["₃", "3"], ["₄", "4"], ["₅", "5"], ["₆", "6"], ["₇", "7"], ["₈", "8"], ["₉", "9"],
["’", ""], ["'", ""], ["ʼ", ""], ["‘", ""], ["‛", ""], ["´", ""], ["`", ""], ["′", ""], ["‵", ""], ["՚", ""], ["ꞌ", ""], ["Ꞌ", ""],
["-", ""]
]),
simplifyWord: function (sWord) {
// word simplication before calculating distance between words
sWord = sWord.toLowerCase();
sWord = [...sWord].map(c => this._xTransCharsForSimplification.gl_get(c, c)).join('');
let sNewWord = "";
let i = 1;
for (let c of sWord) {
if (c != sWord.slice(i, i+1) || (c == 'e' && sWord.slice(i, i+2) != "ee")) { // exception for <e> to avoid confusion between crée / créai
sNewWord += c;
}
i++;
}
return sNewWord.replace(/eau/g, "o").replace(/au/g, "o").replace(/ai/g, "éi").replace(/ei/g, "é").replace(/ph/g, "f");
},
cleanWord: function (sWord) {
// word clean for the user who make commun and preditive error help suggest
// remove letters repeated more than 2 times
if (sWord.match(/(.)(\1){2,}/igm)){
sWord = sWord.replace(/(.*)(.)(.\2)/igm,'$1$2').replace(/(.)(\1)+/igm,'$1$1');
}
// words ending with -ik -> replace with -ique
if (sWord.match(/ik$/ig)){
sWord = sWord.replace(/(.*)ik$/ig,'$1ique');
}
return sWord;
},
_xTransNumbersToExponent: new Map([
["0", "⁰"], ["1", "¹"], ["2", "²"], ["3", "³"], ["4", "⁴"], ["5", "⁵"], ["6", "⁶"], ["7", "⁷"], ["8", "⁸"], ["9", "⁹"]
]),
numbersToExponent: function (sWord) {
let sNewWord = "";
for (let c of sWord) {
sNewWord += this._xTransNumbersToExponent.gl_get(c, c);
}
return sNewWord;
},
longestCommonSubstring: function (string1, string2) {
// https://en.wikibooks.org/wiki/Algorithm_Implementation/Strings/Longest_common_substring
// untested
// init max value
let longestCommonSubstring = 0;
// init 2D array with 0
let table = [],
len1 = string1.length,
len2 = string2.length,
row, col;
for (row = 0; row <= len1; row++) {
table[row] = [];
for (col = 0; col <= len2; col++) {
table[row][col] = 0;
}
}
// fill table
let i, j;
for (i = 0; i < len1; i++) {
for (j = 0; j < len2; j++) {
if (string1[i] === string2[j]) {
if (table[i][j] === 0){
table[i+1][j+1] = 1;
} else {
table[i+1][j+1] = table[i][j] + 1;
}
if (table[i+1][j+1] > longestCommonSubstring) {
longestCommonSubstring = table[i+1][j+1];
}
} else {
table[i+1][j+1] = 0;
}
}
}
return longestCommonSubstring;
},
distanceDamerauLevenshtein: function (s1, s2) {
// distance of Damerau-Levenshtein between <s1> and <s2>
// https://fr.wikipedia.org/wiki/Distance_de_Damerau-Levenshtein
try {
let nLen1 = s1.length;
let nLen2 = s2.length;
let matrix = [];
for (let i = 0; i <= nLen1+1; i++) {
matrix[i] = new Array(nLen2 + 2);
}
for (let i = 0; i <= nLen1+1; i++) {
matrix[i][0] = i;
}
for (let j = 0; j <= nLen2+1; j++) {
matrix[0][j] = j;
}
for (let i = 1; i <= nLen1; i++) {
for (let j = 1; j <= nLen2; j++) {
//let nCost = (s1[i-1] === s2[j-1]) ? 0 : 1;
let nCost = char_player.distanceBetweenChars(s1[i-1], s2[j-1]);
matrix[i][j] = Math.min(
matrix[i-1][j] + 1, // Deletion
matrix[i][j-1] + 1, // Insertion
matrix[i-1][j-1] + nCost // Substitution
);
if (i > 1 && j > 1 && s1[i] == s2[j-1] && s1[i-1] == s2[j]) {
matrix[i][j] = Math.min(matrix[i][j], matrix[i-2][j-2] + nCost); // Transposition
}
}
}
return matrix[nLen1][nLen2];
}
catch (e) {
console.error(e);
}
},
distanceJaroWinkler: function(a, b, boost = .666) {
// https://github.com/thsig/jaro-winkler-JS
//if (a == b) { return 1.0; }
let a_len = a.length;
let b_len = b.length;
let a_flag = [];
let b_flag = [];
let search_range = Math.floor(Math.max(a_len, b_len) / 2) - 1;
let minv = Math.min(a_len, b_len);
// Looking only within the search range, count and flag the matched pairs.
let Num_com = 0;
let yl1 = b_len - 1;
for (let i = 0; i < a_len; i++) {
let lowlim = (i >= search_range) ? i - search_range : 0;
let hilim = ((i + search_range) <= yl1) ? (i + search_range) : yl1;
for (let j = lowlim; j <= hilim; j++) {
if (b_flag[j] !== 1 && a[j] === b[i]) {
a_flag[j] = 1;
b_flag[i] = 1;
Num_com++;
break;
}
}
}
// Return if no characters in common
if (Num_com === 0) { return 0.0; }
// Count the number of transpositions
let k = 0;
let N_trans = 0;
for (let i = 0; i < a_len; i++) {
if (a_flag[i] === 1) {
let j;
for (j = k; j < b_len; j++) {
if (b_flag[j] === 1) {
k = j + 1;
break;
}
}
if (a[i] !== b[j]) { N_trans++; }
}
}
N_trans = Math.floor(N_trans / 2);
// Adjust for similarities in nonmatched characters
let N_simi = 0;
let adjwt = char_player.oDistanceBetweenChars;
if (minv > Num_com) {
for (let i = 0; i < a_len; i++) {
if (!a_flag[i]) {
for (let j = 0; j < b_len; j++) {
if (!b_flag[j]) {
if (adjwt[a[i]] && adjwt[a[i]][b[j]]) {
N_simi += adjwt[a[i]][b[j]];
b_flag[j] = 2;
break;
}
}
}
}
}
}
let Num_sim = (N_simi / 10.0) + Num_com;
// Main weight computation
let weight = Num_sim / a_len + Num_sim / b_len + (Num_com - N_trans) / Num_com;
weight = weight / 3;
// Continue to boost the weight if the strings are similar
if (weight > boost) {
// Adjust for having up to the first 4 characters in common
let j = (minv >= 4) ? 4 : minv;
let i;
for (i = 0; (i < j) && a[i] === b[i]; i++) { }
if (i) { weight += i * 0.1 * (1.0 - weight) };
// Adjust for long strings.
// After agreeing beginning chars, at least two more must agree
// and the agreeing characters must be more than half of the
// remaining characters.
if (minv > 4 && Num_com > i + 1 && 2 * Num_com >= minv + i) {
weight += (1 - weight) * ((Num_com - i - 1) / (a_len * b_len - i*2 + 2));
}
}
return weight;
},
showDistance (s1, s2) {
console.log(`Distance: ${s1} / ${s2} = ${this.distanceDamerauLevenshtein(s1, s2)})`);
},
// Suffix only
defineSuffixCode: function (sFlex, sStem) {
/*
Returns a string defining how to get stem from flexion
"n(sfx)"
with n: a char with numeric meaning, "0" = 0, "1" = 1, ... ":" = 10, etc. (See ASCII table.) Says how many letters to strip from flexion.
sfx [optional]: string to add on flexion
Examples:
"0": strips nothing, adds nothing
"1er": strips 1 letter, adds "er"
"2": strips 2 letters, adds nothing
*/
if (sFlex == sStem) {
return "0";
}
let jSfx = 0;
for (let i = 0; i < Math.min(sFlex.length, sStem.length); i++) {
if (sFlex[i] !== sStem[i]) {
break;
}
jSfx += 1;
}
return String.fromCharCode(sFlex.length-jSfx+48) + sStem.slice(jSfx);
},
changeWordWithSuffixCode: function (sWord, sSfxCode) {
if (sSfxCode == "0") {
return sWord;
}
return sSfxCode[0] == '0' ? sWord + sSfxCode.slice(1) : sWord.slice(0, -(sSfxCode.charCodeAt(0)-48)) + sSfxCode.slice(1);
},
// Prefix and suffix
defineAffixCode: function (sFlex, sStem) {
/*
UNTESTED!
Returns a string defining how to get stem from flexion. Examples:
"0" if stem = flexion
"stem" if no common substring
"n(pfx)/m(sfx)"
with n and m: chars with numeric meaning, "0" = 0, "1" = 1, ... ":" = 10, etc. (See ASCII table.) Says how many letters to strip from flexion.
pfx [optional]: string to add before the flexion
sfx [optional]: string to add after the flexion
*/
if (sFlex == sStem) {
return "0";
}
// is stem a substring of flexion?
let n = sFlex.indexOf(sStem);
if (n >= 0) {
return String.fromCharCode(n+48) + "/" + String.fromCharCode(sFlex.length-(sStem.length+n)+48);
}
// no, so we are looking for common substring
let sSubs = this.longestCommonSubstring(sFlex, sStem);
if (sSubs.length > 1) {
let iPos = sStem.indexOf(sSubs);
let sPfx = sStem.slice(0, iPos);
let sSfx = sStem.slice(iPos+sSubs.length);
let n = sFlex.indexOf(sSubs);
let m = sFlex.length - (sSubs.length+n);
return String.fromCharCode(n+48) + sPfx + "/" + String.fromCharCode(m+48) + sSfx;
}
return sStem;
},
changeWordWithAffixCode: function (sWord, sAffCode) {
if (sAffCode == "0") {
return sWord;
}
if (!sAffCode.includes("/")) {
return sAffCode;
}
let [sPfxCode, sSfxCode] = sAffCode.split('/');
sWord = sPfxCode.slice(1) + sWord.slice(sPfxCode.charCodeAt(0)-48);
return sSfxCode[0] == '0' ? sWord + sSfxCode.slice(1) : sWord.slice(0, -(sSfxCode.charCodeAt(0)-48)) + sSfxCode.slice(1);
}
};
if (typeof(exports) !== 'undefined') {
exports.simplifyWord = str_transform.simplifyWord;
exports.numbersToExponent = str_transform.numbersToExponent;
exports.spellingNormalization = str_transform.spellingNormalization;
exports.longestCommonSubstring = str_transform.longestCommonSubstring;
exports.distanceDamerauLevenshtein = str_transform.distanceDamerauLevenshtein;
exports.distanceDamerauLevenshtein2 = str_transform.distanceDamerauLevenshtein2;
exports.showDistance = str_transform.showDistance;
exports.changeWordWithSuffixCode = str_transform.changeWordWithSuffixCode;
exports.changeWordWithAffixCode = str_transform.changeWordWithAffixCode;
exports.defineAffixCode = str_transform.defineAffixCode;
exports.defineSuffixCode = str_transform.defineSuffixCode;
}