fast-levenshtein-umd

A UMD build of fast-levenshtein

Αυτός ο κώδικας δεν πρέπει να εγκατασταθεί άμεσα. Είναι μια βιβλιοθήκη για άλλους κώδικες που περιλαμβάνεται μέσω της οδηγίας meta // @require https://update.greasyfork.org/scripts/525938/1532043/fast-levenshtein-umd.js

Πώς γίνεται η εγκατάσταση

θα χρειαστεί να εγκαταστήσετε μια επέκταση όπως το Tampermonkey, το Greasemonkey ή το Violentmonkey για να εγκαταστήσετε αυτόν τον κώδικα.

You will need to install an extension such as Tampermonkey to install this script.

θα χρειαστεί να εγκαταστήσετε μια επέκταση όπως το Tampermonkey ή το Violentmonkey για να εγκαταστήσετε αυτόν τον κώδικα.

θα χρειαστεί να εγκαταστήσετε μια επέκταση όπως το Tampermonkey ή το Userscripts για να εγκαταστήσετε αυτόν τον κώδικα.

You will need to install an extension such as Tampermonkey to install this script.

Θα χρειαστεί να εγκαταστήσετε μια επέκταση διαχείρισης κώδικα χρήστη για να εγκαταστήσετε αυτόν τον κώδικα.

(Έχω ήδη έναν διαχειριστή κώδικα χρήστη, επιτρέψτε μου να τον εγκαταστήσω!)

Πώς γίνεται η εγκατάσταση

You will need to install an extension such as Stylus to install this style.

You will need to install an extension such as Stylus to install this style.

You will need to install an extension such as Stylus to install this style.

You will need to install a user style manager extension to install this style.

You will need to install a user style manager extension to install this style.

You will need to install a user style manager extension to install this style.

(Έχω ήδη έναν διαχειριστή στυλ χρήστη, επιτρέψτε μου να τον εγκαταστήσω!) 

(function (global, factory) {
    typeof exports === 'object' && typeof module !== 'undefined' ? module.exports = factory() :
    typeof define === 'function' && define.amd ? define(factory) :
    (global = typeof globalThis !== 'undefined' ? globalThis : global || self, global.Levenshtein = factory());
})(this, (function () { 'use strict';
    const peq = new Uint32Array(0x10000);
    const myers_32 = (a, b) => {
        const n = a.length;
        const m = b.length;
        const lst = 1 << (n - 1);
        let pv = -1;
        let mv = 0;
        let sc = n;
        let i = n;
        while (i--) {
            peq[a.charCodeAt(i)] |= 1 << i;
        }
        for (i = 0; i < m; i++) {
            let eq = peq[b.charCodeAt(i)];
            const xv = eq | mv;
            eq |= ((eq & pv) + pv) ^ pv;
            mv |= ~(eq | pv);
            pv &= eq;
            if (mv & lst) sc++;
            if (pv & lst) sc--;
            mv = (mv << 1) | 1;
            pv = (pv << 1) | ~(xv | mv);
            mv &= xv;
        }
        i = n;
        while (i--) {
            peq[a.charCodeAt(i)] = 0;
        }
        return sc;
    };
    const myers_x = (b, a) => {
        const n = a.length;
        const m = b.length;
        const mhc = [];
        const phc = [];
        const hsize = Math.ceil(n / 32);
        const vsize = Math.ceil(m / 32);
        for (let i = 0; i < hsize; i++) {
            phc[i] = -1;
            mhc[i] = 0;
        }
        let j = 0;
        for (; j < vsize - 1; j++) {
            let mv = 0;
            let pv = -1;
            const start = j * 32;
            const vlen = Math.min(32, m) + start;
            for (let k = start; k < vlen; k++) {
                peq[b.charCodeAt(k)] |= 1 << k;
            }
            for (let i = 0; i < n; i++) {
                const eq = peq[a.charCodeAt(i)];
                const pb = (phc[(i / 32) | 0] >>> i) & 1;
                const mb = (mhc[(i / 32) | 0] >>> i) & 1;
                const xv = eq | mv;
                const xh = ((((eq | mb) & pv) + pv) ^ pv) | eq | mb;
                let ph = mv | ~(xh | pv);
                let mh = pv & xh;
                if ((ph >>> 31) ^ pb) {
                    phc[(i / 32) | 0] ^= 1 << i;
                }
                if ((mh >>> 31) ^ mb) {
                    mhc[(i / 32) | 0] ^= 1 << i;
                }
                ph = (ph << 1) | pb;
                mh = (mh << 1) | mb;
                pv = mh | ~(xv | ph);
                mv = ph & xv;
            }
            for (let k = start; k < vlen; k++) {
                peq[b.charCodeAt(k)] = 0;
            }
        }
        let mv = 0;
        let pv = -1;
        const start = j * 32;
        const vlen = Math.min(32, m - start) + start;
        for (let k = start; k < vlen; k++) {
            peq[b.charCodeAt(k)] |= 1 << k;
        }
        let score = m;
        for (let i = 0; i < n; i++) {
            const eq = peq[a.charCodeAt(i)];
            const pb = (phc[(i / 32) | 0] >>> i) & 1;
            const mb = (mhc[(i / 32) | 0] >>> i) & 1;
            const xv = eq | mv;
            const xh = ((((eq | mb) & pv) + pv) ^ pv) | eq | mb;
            let ph = mv | ~(xh | pv);
            let mh = pv & xh;
            score += (ph >>> (m - 1)) & 1;
            score -= (mh >>> (m - 1)) & 1;
            if ((ph >>> 31) ^ pb) {
                phc[(i / 32) | 0] ^= 1 << i;
            }
            if ((mh >>> 31) ^ mb) {
                mhc[(i / 32) | 0] ^= 1 << i;
            }
            ph = (ph << 1) | pb;
            mh = (mh << 1) | mb;
            pv = mh | ~(xv | ph);
            mv = ph & xv;
        }
        for (let k = start; k < vlen; k++) {
            peq[b.charCodeAt(k)] = 0;
        }
        return score;
    };
    const distance = (a, b) => {
        if (a.length < b.length) {
            const tmp = b;
            b = a;
            a = tmp;
        }
        if (b.length === 0) return a.length;
        if (a.length <= 32) return myers_32(a, b);
        return myers_x(a, b);
    };
    const collator = Intl.Collator("generic", { sensitivity: "base" });
    const prevRow = [];
    const str2Char = [];
    const Levenshtein = {
        get(str1, str2, options={useCollator:false}) {
            const useCollator = (options && collator && options.useCollator);
            if (useCollator) {
                const str1Len = str1.length;
                const str2Len = str2.length;
                if (str1Len === 0) return str2Len;
                if (str2Len === 0) return str1Len;
                for (i=0; i<str2Len; ++i) {
                    prevRow[i] = i;
                    str2Char[i] = str2.charCodeAt(i);
                }
                prevRow[str2Len] = str2Len;
                var strCmp;
                for (let i = 0; i < str1Len; ++i) {
                    let nextCol = i + 1;
                    for (let j = 0; j < str2Len; ++j) {
                        let curCol = nextCol;
                        strCmp = 0 === collator.compare(str1.charAt(i), String.fromCharCode(str2Char[j]));
                        nextCol = prevRow[j] + (strCmp ? 0 : 1);
                        let tmp = curCol + 1;
                        if (nextCol > tmp) {
                            nextCol = tmp;
                        }
                        tmp = prevRow[j + 1] + 1;
                        if (nextCol > tmp) {
                            nextCol = tmp;
                        }
                        prevRow[j] = curCol;
                    }
                    prevRow[j] = nextCol;
                }
                return nextCol;
            }
            return distance(str1, str2);
        }
    };
    return Levenshtein;
}));