swc/crates/swc_bundler/tests/.cache/deno/9d93b712ae58fe01ffd8de872d2cf6ffd56fa336.ts

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// Loaded from https://deno.land/x/graphql_deno@v15.0.0/lib/jsutils/suggestionList.js
/**
* Given an invalid input string and a list of valid options, returns a filtered
* list of valid options sorted based on their similarity with the input.
*/
export default function suggestionList(input, options) {
const optionsByDistance = Object.create(null);
const lexicalDistance = new LexicalDistance(input);
const threshold = Math.floor(input.length * 0.4) + 1;
for (const option of options) {
const distance = lexicalDistance.measure(option, threshold);
if (distance !== undefined) {
optionsByDistance[option] = distance;
}
}
return Object.keys(optionsByDistance).sort((a, b) => {
const distanceDiff = optionsByDistance[a] - optionsByDistance[b];
return distanceDiff !== 0 ? distanceDiff : a.localeCompare(b);
});
}
/**
* Computes the lexical distance between strings A and B.
*
* The "distance" between two strings is given by counting the minimum number
* of edits needed to transform string A into string B. An edit can be an
* insertion, deletion, or substitution of a single character, or a swap of two
* adjacent characters.
*
* Includes a custom alteration from Damerau-Levenshtein to treat case changes
* as a single edit which helps identify mis-cased values with an edit distance
* of 1.
*
* This distance can be useful for detecting typos in input or sorting
*/
class LexicalDistance {
constructor(input) {
this._input = input;
this._inputLowerCase = input.toLowerCase();
this._inputArray = stringToArray(this._inputLowerCase);
this._rows = [new Array(input.length + 1).fill(0), new Array(input.length + 1).fill(0), new Array(input.length + 1).fill(0)];
}
measure(option, threshold) {
if (this._input === option) {
return 0;
}
const optionLowerCase = option.toLowerCase(); // Any case change counts as a single edit
if (this._inputLowerCase === optionLowerCase) {
return 1;
}
let a = stringToArray(optionLowerCase);
let b = this._inputArray;
if (a.length < b.length) {
const tmp = a;
a = b;
b = tmp;
}
const aLength = a.length;
const bLength = b.length;
if (aLength - bLength > threshold) {
return undefined;
}
const rows = this._rows;
for (let j = 0; j <= bLength; j++) {
rows[0][j] = j;
}
for (let i = 1; i <= aLength; i++) {
const upRow = rows[(i - 1) % 3];
const currentRow = rows[i % 3];
let smallestCell = currentRow[0] = i;
for (let j = 1; j <= bLength; j++) {
const cost = a[i - 1] === b[j - 1] ? 0 : 1;
let currentCell = Math.min(upRow[j] + 1, // delete
currentRow[j - 1] + 1, // insert
upRow[j - 1] + cost // substitute
);
if (i > 1 && j > 1 && a[i - 1] === b[j - 2] && a[i - 2] === b[j - 1]) {
// transposition
const doubleDiagonalCell = rows[(i - 2) % 3][j - 2];
currentCell = Math.min(currentCell, doubleDiagonalCell + 1);
}
if (currentCell < smallestCell) {
smallestCell = currentCell;
}
currentRow[j] = currentCell;
} // Early exit, since distance can't go smaller than smallest element of the previous row.
if (smallestCell > threshold) {
return undefined;
}
}
const distance = rows[aLength % 3][bLength];
return distance <= threshold ? distance : undefined;
}
}
function stringToArray(str) {
const strLength = str.length;
const array = new Array(strLength);
for (let i = 0; i < strLength; ++i) {
array[i] = str.charCodeAt(i);
}
return array;
}