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site/node_modules/flexsearch/dist/module/intersect.js

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updated shit
2024-10-14 06:09:33 +00:00
import { create_object, concat } from "./common.js";
/**
* Implementation based on Array.includes() provides better performance,
* but it needs at least one word in the query which is less frequent.
* Also on large indexes it does not scale well performance-wise.
* This strategy also lacks of suggestion capabilities (matching & sorting).
*
* @param arrays
* @param limit
* @param offset
* @param {boolean|Array=} suggest
* @returns {Array}
*/
// export function intersect(arrays, limit, offset, suggest) {
//
// const length = arrays.length;
// let result = [];
// let check;
//
// // determine shortest array and collect results
// // from the sparse relevance arrays
//
// let smallest_size;
// let smallest_arr;
// let smallest_index;
//
// for(let x = 0; x < length; x++){
//
// const arr = arrays[x];
// const len = arr.length;
//
// let size = 0;
//
// for(let y = 0, tmp; y < len; y++){
//
// tmp = arr[y];
//
// if(tmp){
//
// size += tmp.length;
// }
// }
//
// if(!smallest_size || (size < smallest_size)){
//
// smallest_size = size;
// smallest_arr = arr;
// smallest_index = x;
// }
// }
//
// smallest_arr = smallest_arr.length === 1 ?
//
// smallest_arr[0]
// :
// concat(smallest_arr);
//
// if(suggest){
//
// suggest = [smallest_arr];
// check = create_object();
// }
//
// let size = 0;
// let steps = 0;
//
// // process terms in reversed order often results in better performance.
// // the outer loop must be the words array, using the
// // smallest array here disables the "fast fail" optimization.
//
// for(let x = length - 1; x >= 0; x--){
//
// if(x !== smallest_index){
//
// steps++;
//
// const word_arr = arrays[x];
// const word_arr_len = word_arr.length;
// const new_arr = [];
//
// let count = 0;
//
// for(let z = 0, id; z < smallest_arr.length; z++){
//
// id = smallest_arr[z];
//
// let found;
//
// // process relevance in forward order (direction is
// // important for adding IDs during the last round)
//
// for(let y = 0; y < word_arr_len; y++){
//
// const arr = word_arr[y];
//
// if(arr.length){
//
// found = arr.includes(id);
//
// if(found){
//
// // check if in last round
//
// if(steps === length - 1){
//
// if(offset){
//
// offset--;
// }
// else{
//
// result[size++] = id;
//
// if(size === limit){
//
// // fast path "end reached"
//
// return result;
// }
// }
//
// if(suggest){
//
// check[id] = 1;
// }
// }
//
// break;
// }
// }
// }
//
// if(found){
//
// new_arr[count++] = id;
// }
// }
//
// if(suggest){
//
// suggest[steps] = new_arr;
// }
// else if(!count){
//
// return [];
// }
//
// smallest_arr = new_arr;
// }
// }
//
// if(suggest){
//
// // needs to iterate in reverse direction
//
// for(let x = suggest.length - 1, arr, len; x >= 0; x--){
//
// arr = suggest[x];
// len = arr && arr.length;
//
// if(len){
//
// for(let y = 0, id; y < len; y++){
//
// id = arr[y];
//
// if(!check[id]){
//
// check[id] = 1;
//
// if(offset){
//
// offset--;
// }
// else{
//
// result[size++] = id;
//
// if(size === limit){
//
// // fast path "end reached"
//
// return result;
// }
// }
// }
// }
// }
// }
// }
//
// return result;
// }
/**
* Implementation based on Object[key] provides better suggestions
* capabilities and has less performance scaling issues on large indexes.
*
* @param arrays
* @param limit
* @param offset
* @param {boolean|Array=} suggest
* @returns {Array}
*/
export function intersect(arrays, limit, offset, suggest) {
const length = arrays.length;
let result = [],
check,
check_suggest,
size = 0;
if (suggest) {
suggest = [];
}
// process terms in reversed order often has advantage for the fast path "end reached".
// also a reversed order prioritize the order of words from a query.
for (let x = length - 1; 0 <= x; x--) {
const word_arr = arrays[x],
word_arr_len = word_arr.length,
check_new = create_object();
let found = !check;
// process relevance in forward order (direction is
// important for adding IDs during the last round)
for (let y = 0; y < word_arr_len; y++) {
const arr = word_arr[y],
arr_len = arr.length;
if (arr_len) {
// loop through IDs
for (let z = 0, check_idx, id; z < arr_len; z++) {
id = arr[z];
if (check) {
if (check[id]) {
// check if in last round
if (!x) {
if (offset) {
offset--;
} else {
result[size++] = id;
if (size === limit) {
// fast path "end reached"
return result;
}
}
}
if (x || suggest) {
check_new[id] = 1;
}
found = /* append: */ /* skip update: */ /* skip_update: */!0;
}
if (suggest) {
check_idx = (check_suggest[id] || 0) + 1;
check_suggest[id] = check_idx;
// do not adding IDs which are already included in the result (saves one loop)
// the first intersection match has the check index 2, so shift by -2
if (check_idx < length) {
const tmp = suggest[check_idx - 2] || (suggest[check_idx - 2] = []);
tmp[tmp.length] = id;
}
}
} else {
// pre-fill in first round
check_new[id] = 1;
}
}
}
}
if (suggest) {
// re-use the first pre-filled check for suggestions
check || (check_suggest = check_new);
} else if (!found) {
return [];
}
check = check_new;
}
if (suggest) {
// needs to iterate in reverse direction
for (let x = suggest.length - 1, arr, len; 0 <= x; x--) {
arr = suggest[x];
len = arr.length;
for (let y = 0, id; y < len; y++) {
id = arr[y];
if (!check[id]) {
if (offset) {
offset--;
} else {
result[size++] = id;
if (size === limit) {
// fast path "end reached"
return result;
}
}
check[id] = 1;
}
}
}
}
return result;
}
/**
* @param mandatory
* @param arrays
* @returns {Array}
*/
export function intersect_union(mandatory, arrays) {
const check = create_object(),
union = create_object(),
result = [];
for (let x = 0; x < mandatory.length; x++) {
check[mandatory[x]] = 1;
}
for (let x = 0, arr; x < arrays.length; x++) {
arr = arrays[x];
for (let y = 0, id; y < arr.length; y++) {
id = arr[y];
if (check[id]) {
if (!union[id]) {
union[id] = 1;
result[result.length] = id;
}
}
}
}
return result;
}
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