SillyTavern/public/scripts/filters.js
Wolfsblvt 83f79c1466 Fix non-fuzzy char search
- Utilize new utility function that checks insensitive and without accents
2024-04-30 06:03:41 +02:00

391 lines
14 KiB
JavaScript

import { fuzzySearchCharacters, fuzzySearchGroups, fuzzySearchPersonas, fuzzySearchTags, fuzzySearchWorldInfo, power_user } from './power-user.js';
import { tag_map } from './tags.js';
import { includesIgnoreCaseAndAccents } from './utils.js';
/**
* @typedef FilterType The filter type possible for this filter helper
* @type {'search'|'tag'|'folder'|'fav'|'group'|'world_info_search'|'persona_search'}
*/
/**
* The filter types
* @type {{ SEARCH: 'search', TAG: 'tag', FOLDER: 'folder', FAV: 'fav', GROUP: 'group', WORLD_INFO_SEARCH: 'world_info_search', PERSONA_SEARCH: 'persona_search'}}
*/
export const FILTER_TYPES = {
SEARCH: 'search',
TAG: 'tag',
FOLDER: 'folder',
FAV: 'fav',
GROUP: 'group',
WORLD_INFO_SEARCH: 'world_info_search',
PERSONA_SEARCH: 'persona_search',
};
/**
* @typedef FilterState One of the filter states
* @property {string} key - The key of the state
* @property {string} class - The css class for this state
*/
/**
* The filter states
* @type {{ SELECTED: FilterState, EXCLUDED: FilterState, UNDEFINED: FilterState, [key: string]: FilterState }}
*/
export const FILTER_STATES = {
SELECTED: { key: 'SELECTED', class: 'selected' },
EXCLUDED: { key: 'EXCLUDED', class: 'excluded' },
UNDEFINED: { key: 'UNDEFINED', class: 'undefined' },
};
/** @type {string} the default filter state of `FILTER_STATES` */
export const DEFAULT_FILTER_STATE = FILTER_STATES.UNDEFINED.key;
/**
* Robust check if one state equals the other. It does not care whether it's the state key or the state value object.
* @param {FilterState|string} a First state
* @param {FilterState|string} b Second state
* @returns {boolean}
*/
export function isFilterState(a, b) {
const states = Object.keys(FILTER_STATES);
const aKey = typeof a == 'string' && states.includes(a) ? a : states.find(key => FILTER_STATES[key] === a);
const bKey = typeof b == 'string' && states.includes(b) ? b : states.find(key => FILTER_STATES[key] === b);
return aKey === bKey;
}
/**
* Helper class for filtering data.
* @example
* const filterHelper = new FilterHelper(() => console.log('data changed'));
* filterHelper.setFilterData(FILTER_TYPES.SEARCH, 'test');
* data = filterHelper.applyFilters(data);
*/
export class FilterHelper {
/**
* Cache fuzzy search weighting scores for re-usability, sorting and stuff
*
* Contains maps of weighting numbers assigned to their uid/id, for each of the different `FILTER_TYPES`
* @type {Map<FilterType, Map<string|number,number>>}
*/
scoreCache;
/**
* Creates a new FilterHelper
* @param {Function} onDataChanged Callback to trigger when the filter data changes
*/
constructor(onDataChanged) {
this.onDataChanged = onDataChanged;
this.scoreCache = new Map();
}
/**
* Checks if the filter data has any values.
* @returns {boolean} Whether the filter data has any values
*/
hasAnyFilter() {
/**
* Checks if the object has any values.
* @param {object} obj The object to check for values
* @returns {boolean} Whether the object has any values
*/
function checkRecursive(obj) {
if (typeof obj === 'string' && obj.length > 0 && obj !== 'UNDEFINED') {
return true;
} else if (typeof obj === 'boolean' && obj) {
return true;
} else if (Array.isArray(obj) && obj.length > 0) {
return true;
} else if (typeof obj === 'object' && obj !== null && Object.keys(obj.length > 0)) {
for (const key in obj) {
if (checkRecursive(obj[key])) {
return true;
}
}
}
return false;
}
return checkRecursive(this.filterData);
}
/**
* The filter functions.
* @type {Object.<string, Function>}
*/
filterFunctions = {
[FILTER_TYPES.SEARCH]: this.searchFilter.bind(this),
[FILTER_TYPES.FAV]: this.favFilter.bind(this),
[FILTER_TYPES.GROUP]: this.groupFilter.bind(this),
[FILTER_TYPES.FOLDER]: this.folderFilter.bind(this),
[FILTER_TYPES.TAG]: this.tagFilter.bind(this),
[FILTER_TYPES.WORLD_INFO_SEARCH]: this.wiSearchFilter.bind(this),
[FILTER_TYPES.PERSONA_SEARCH]: this.personaSearchFilter.bind(this),
};
/**
* The filter data.
* @type {Object.<string, any>}
*/
filterData = {
[FILTER_TYPES.SEARCH]: '',
[FILTER_TYPES.FAV]: false,
[FILTER_TYPES.GROUP]: false,
[FILTER_TYPES.FOLDER]: false,
[FILTER_TYPES.TAG]: { excluded: [], selected: [] },
[FILTER_TYPES.WORLD_INFO_SEARCH]: '',
[FILTER_TYPES.PERSONA_SEARCH]: '',
};
/**
* Applies a fuzzy search filter to the World Info data.
* @param {any[]} data The data to filter. Must have a uid property.
* @returns {any[]} The filtered data.
*/
wiSearchFilter(data) {
const term = this.filterData[FILTER_TYPES.WORLD_INFO_SEARCH];
if (!term) {
return data;
}
const fuzzySearchResults = fuzzySearchWorldInfo(data, term);
this.cacheScores(FILTER_TYPES.WORLD_INFO_SEARCH, new Map(fuzzySearchResults.map(i => [i.item?.uid, i.score])));
const filteredData = data.filter(entity => fuzzySearchResults.find(x => x.item === entity));
return filteredData;
}
/**
* Applies a search filter to Persona data.
* @param {string[]} data The data to filter.
* @returns {string[]} The filtered data.
*/
personaSearchFilter(data) {
const term = this.filterData[FILTER_TYPES.PERSONA_SEARCH];
if (!term) {
return data;
}
const fuzzySearchResults = fuzzySearchPersonas(data, term);
this.cacheScores(FILTER_TYPES.PERSONA_SEARCH, new Map(fuzzySearchResults.map(i => [i.item.key, i.score])));
const filteredData = data.filter(name => fuzzySearchResults.find(x => x.item.key === name));
return filteredData;
}
/**
* Checks if the given entity is tagged with the given tag ID.
* @param {object} entity Searchable entity
* @param {string} tagId Tag ID to check
* @returns {boolean} Whether the entity is tagged with the given tag ID
*/
isElementTagged(entity, tagId) {
const isCharacter = entity.type === 'character';
const lookupValue = isCharacter ? entity.item.avatar : String(entity.id);
const isTagged = Array.isArray(tag_map[lookupValue]) && tag_map[lookupValue].includes(tagId);
return isTagged;
}
/**
* Applies a tag filter to the data.
* @param {any[]} data The data to filter.
* @returns {any[]} The filtered data.
*/
tagFilter(data) {
const TAG_LOGIC_AND = true; // switch to false to use OR logic for combining tags
const { selected, excluded } = this.filterData[FILTER_TYPES.TAG];
if (!selected.length && !excluded.length) {
return data;
}
const getIsTagged = (entity) => {
const isTag = entity.type === 'tag';
const tagFlags = selected.map(tagId => this.isElementTagged(entity, tagId));
const trueFlags = tagFlags.filter(x => x);
const isTagged = TAG_LOGIC_AND ? tagFlags.length === trueFlags.length : trueFlags.length > 0;
const excludedTagFlags = excluded.map(tagId => this.isElementTagged(entity, tagId));
const isExcluded = excludedTagFlags.includes(true);
if (isTag) {
return true;
} else if (isExcluded) {
return false;
} else if (selected.length > 0 && !isTagged) {
return false;
} else {
return true;
}
};
return data.filter(entity => getIsTagged(entity));
}
/**
* Applies a favorite filter to the data.
* @param {any[]} data The data to filter.
* @returns {any[]} The filtered data.
*/
favFilter(data) {
const state = this.filterData[FILTER_TYPES.FAV];
const isFav = entity => entity.item.fav || entity.item.fav == 'true';
return this.filterDataByState(data, state, isFav, { includeFolders: true });
}
/**
* Applies a group type filter to the data.
* @param {any[]} data The data to filter.
* @returns {any[]} The filtered data.
*/
groupFilter(data) {
const state = this.filterData[FILTER_TYPES.GROUP];
const isGroup = entity => entity.type === 'group';
return this.filterDataByState(data, state, isGroup, { includeFolders: true });
}
/**
* Applies a "folder" filter to the data.
* @param {any[]} data The data to filter.
* @returns {any[]} The filtered data.
*/
folderFilter(data) {
const state = this.filterData[FILTER_TYPES.FOLDER];
// Slightly different than the other filters, as a positive folder filter means it doesn't filter anything (folders get "not hidden" at another place),
// while a negative state should then filter out all folders.
const isFolder = entity => isFilterState(state, FILTER_STATES.SELECTED) ? true : entity.type === 'tag';
return this.filterDataByState(data, state, isFolder);
}
filterDataByState(data, state, filterFunc, { includeFolders = false } = {}) {
if (isFilterState(state, FILTER_STATES.SELECTED)) {
return data.filter(entity => filterFunc(entity) || (includeFolders && entity.type == 'tag'));
}
if (isFilterState(state, FILTER_STATES.EXCLUDED)) {
return data.filter(entity => !filterFunc(entity) || (includeFolders && entity.type == 'tag'));
}
return data;
}
/**
* Applies a search filter to the data. Uses fuzzy search if enabled.
* @param {any[]} data The data to filter.
* @returns {any[]} The filtered data.
*/
searchFilter(data) {
if (!this.filterData[FILTER_TYPES.SEARCH]) {
return data;
}
const searchValue = this.filterData[FILTER_TYPES.SEARCH];
// Save fuzzy search results and scores if enabled
if (power_user.fuzzy_search) {
const fuzzySearchCharactersResults = fuzzySearchCharacters(searchValue);
const fuzzySearchGroupsResults = fuzzySearchGroups(searchValue);
const fuzzySearchTagsResult = fuzzySearchTags(searchValue);
this.cacheScores(FILTER_TYPES.SEARCH, new Map(fuzzySearchCharactersResults.map(i => [`character.${i.refIndex}`, i.score])));
this.cacheScores(FILTER_TYPES.SEARCH, new Map(fuzzySearchGroupsResults.map(i => [`group.${i.item.id}`, i.score])));
this.cacheScores(FILTER_TYPES.SEARCH, new Map(fuzzySearchTagsResult.map(i => [`tag.${i.item.id}`, i.score])));
}
const _this = this;
function getIsValidSearch(entity) {
if (power_user.fuzzy_search) {
// We can filter easily by checking if we have saved a score
const score = _this.getScore(FILTER_TYPES.SEARCH, `${entity.type}.${entity.id}`);
return score !== undefined;
}
else {
// Compare insensitive and without accents
return includesIgnoreCaseAndAccents(entity.item?.name, searchValue);
}
}
return data.filter(entity => getIsValidSearch(entity));
}
/**
* Sets the filter data for the given filter type.
* @param {string} filterType The filter type to set data for.
* @param {any} data The data to set.
* @param {boolean} suppressDataChanged Whether to suppress the data changed callback.
*/
setFilterData(filterType, data, suppressDataChanged = false) {
const oldData = this.filterData[filterType];
this.filterData[filterType] = data;
// only trigger a data change if the data actually changed
if (JSON.stringify(oldData) !== JSON.stringify(data) && !suppressDataChanged) {
this.onDataChanged();
}
}
/**
* Gets the filter data for the given filter type.
* @param {FilterType} filterType The filter type to get data for.
*/
getFilterData(filterType) {
return this.filterData[filterType];
}
/**
* Applies all filters to the given data.
* @param {any[]} data - The data to filter.
* @param {object} options - Optional call parameters
* @param {boolean|FilterType} [options.clearScoreCache=true] - Whether the score
* @returns {any[]} The filtered data.
*/
applyFilters(data, { clearScoreCache = true } = {}) {
if (clearScoreCache) this.clearScoreCache();
return Object.values(this.filterFunctions)
.reduce((data, fn) => fn(data), data);
}
/**
* Cache scores for a specific filter type
* @param {FilterType} type - The type of data being cached
* @param {Map<string|number, number>} results - The search results containing mapped item identifiers and their scores
*/
cacheScores(type, results) {
/** @type {Map<string|number, number>} */
const typeScores = this.scoreCache.get(type) || new Map();
for (const [uid, score] of results) {
typeScores.set(uid, score);
}
this.scoreCache.set(type, typeScores);
console.debug('search scores chached', type, typeScores);
}
/**
* Get the cached score for an item by type and its identifier
* @param {FilterType} type The type of data
* @param {string|number} uid The unique identifier for an item
* @returns {number|undefined} The cached score, or `undefined` if no score is present
*/
getScore(type, uid) {
return this.scoreCache.get(type)?.get(uid) ?? undefined;
}
/**
* Clear the score cache for a specific type, or completely if no type is specified
* @param {FilterType} [type] The type of data to clear scores for. Clears all if unspecified.
*/
clearScoreCache(type) {
if (type) {
this.scoreCache.set(type, new Map());
} else {
this.scoreCache = new Map();
}
}
}