// Client-side tag completion. import store from './store'; interface Result { name: string; imageCount: number; associations: number[]; } /** * Compare two strings, C-style. */ function strcmp(a: string, b: string): number { return a < b ? -1 : Number(a > b); } /** * Returns the name of a tag without any namespace component. */ function nameInNamespace(s: string): string { const v = s.split(':', 2); if (v.length === 2) return v[1]; return v[0]; } /** * See lib/philomena/autocomplete.ex for binary structure details. * * A binary blob is used to avoid the creation of large amounts of garbage on * the JS heap and speed up the execution of the search. */ export class LocalAutocompleter { private data: Uint8Array; private view: DataView; private decoder: TextDecoder; private numTags: number; private referenceStart: number; private secondaryStart: number; private formatVersion: number; /** * Build a new local autocompleter. */ constructor(backingStore: ArrayBuffer) { this.data = new Uint8Array(backingStore); this.view = new DataView(backingStore); this.decoder = new TextDecoder(); this.numTags = this.view.getUint32(backingStore.byteLength - 4, true); this.referenceStart = this.view.getUint32(backingStore.byteLength - 8, true); this.secondaryStart = this.referenceStart + 8 * this.numTags; this.formatVersion = this.view.getUint32(backingStore.byteLength - 12, true); if (this.formatVersion !== 2) { throw new Error('Incompatible autocomplete format version'); } } /** * Get a tag's name and its associations given a byte location inside the file. */ getTagFromLocation(location: number): [string, number[]] { const nameLength = this.view.getUint8(location); const assnLength = this.view.getUint8(location + 1 + nameLength); const associations: number[] = []; const name = this.decoder.decode(this.data.slice(location + 1, location + nameLength + 1)); for (let i = 0; i < assnLength; i++) { associations.push(this.view.getUint32(location + 1 + nameLength + 1 + i * 4, true)); } return [name, associations]; } /** * Get a Result object as the ith tag inside the file. */ getResultAt(i: number): [string, Result] { const nameLocation = this.view.getUint32(this.referenceStart + i * 8, true); const imageCount = this.view.getInt32(this.referenceStart + i * 8 + 4, true); const [name, associations] = this.getTagFromLocation(nameLocation); if (imageCount < 0) { // This is actually an alias, so follow it return [name, this.getResultAt(-imageCount - 1)[1]]; } return [name, { name, imageCount, associations }]; } /** * Get a Result object as the ith tag inside the file, secondary ordering. */ getSecondaryResultAt(i: number): [string, Result] { const referenceIndex = this.view.getUint32(this.secondaryStart + i * 4, true); return this.getResultAt(referenceIndex); } /** * Perform a binary search to fetch all results matching a condition. */ scanResults( getResult: (i: number) => [string, Result], compare: (name: string) => number, results: Record, ) { const unfilter = store.get('unfilter_tag_suggestions'); let min = 0; let max = this.numTags; const hiddenTags = window.booru.hiddenTagList; while (min < max - 1) { const med = (min + (max - min) / 2) | 0; const sortKey = getResult(med)[0]; if (compare(sortKey) >= 0) { // too large, go left max = med; } else { // too small, go right min = med; } } // Scan forward until no more matches occur while (min < this.numTags - 1) { const [sortKey, result] = getResult(++min); if (compare(sortKey) !== 0) { break; } // Add if not filtering or no associations are filtered if (unfilter || hiddenTags.findIndex(ht => result.associations.includes(ht)) === -1) { results[result.name] = result; } } } /** * Find the top k results by image count which match the given string prefix. */ topK(prefix: string, k: number): Result[] { const results: Record = {}; if (prefix === '') { return []; } // Find normally, in full name-sorted order const prefixMatch = (name: string) => strcmp(name.slice(0, prefix.length), prefix); this.scanResults(this.getResultAt.bind(this), prefixMatch, results); // Find in secondary order const namespaceMatch = (name: string) => strcmp(nameInNamespace(name).slice(0, prefix.length), prefix); this.scanResults(this.getSecondaryResultAt.bind(this), namespaceMatch, results); // Sort results by image count const sorted = Object.values(results).sort((a, b) => b.imageCount - a.imageCount); return sorted.slice(0, k); } }