philomena/assets/js/utils/__tests__/local-autocompleter.spec.ts

102 lines
3.9 KiB
TypeScript

import { LocalAutocompleter } from '../local-autocompleter';
import { promises } from 'fs';
import { join } from 'path';
import { TextDecoder } from 'util';
describe('Local Autocompleter', () => {
let mockData: ArrayBuffer;
const defaultK = 5;
beforeAll(async () => {
const mockDataPath = join(__dirname, 'autocomplete-compiled-v2.bin');
/**
* Read pre-generated binary autocomplete data
*
* Contains the tags: safe (6), forest (3), flower (1), flowers -> flower, fog (1),
* force field (1), artist:test (1), explicit (0), grimdark (0),
* grotesque (0), questionable (0), semi-grimdark (0), suggestive (0)
*/
mockData = (await promises.readFile(mockDataPath, { encoding: null })).buffer;
// Polyfills for jsdom
global.TextDecoder = TextDecoder as unknown as typeof global.TextDecoder;
});
afterAll(() => {
delete (global as Partial<typeof global>).TextEncoder;
delete (global as Partial<typeof global>).TextDecoder;
});
describe('instantiation', () => {
it('should be constructible with compatible data', () => {
const result = new LocalAutocompleter(mockData);
expect(result).toBeInstanceOf(LocalAutocompleter);
});
it('should NOT be constructible with incompatible data', () => {
const versionDataOffset = 12;
const mockIncompatibleDataArray = new Array(versionDataOffset).fill(0);
// Set data version to 1
mockIncompatibleDataArray[mockIncompatibleDataArray.length - versionDataOffset] = 1;
const mockIncompatibleData = new Uint32Array(mockIncompatibleDataArray).buffer;
expect(() => new LocalAutocompleter(mockIncompatibleData)).toThrow('Incompatible autocomplete format version');
});
});
describe('topK', () => {
const termStem = ['f', 'o'].join('');
let localAc: LocalAutocompleter;
beforeAll(() => {
localAc = new LocalAutocompleter(mockData);
});
beforeEach(() => {
window.booru.hiddenTagList = [];
});
it('should return suggestions for exact tag name match', () => {
const result = localAc.matchPrefix('safe').topK(defaultK);
expect(result).toEqual([expect.objectContaining({ aliasName: 'safe', name: 'safe', imageCount: 6 })]);
});
it('should return suggestion for original tag when passed an alias', () => {
const result = localAc.matchPrefix('flowers').topK(defaultK);
expect(result).toEqual([expect.objectContaining({ aliasName: 'flowers', name: 'flower', imageCount: 1 })]);
});
it('should return suggestions sorted by image count', () => {
const result = localAc.matchPrefix(termStem).topK(defaultK);
expect(result).toEqual([
expect.objectContaining({ aliasName: 'forest', name: 'forest', imageCount: 3 }),
expect.objectContaining({ aliasName: 'fog', name: 'fog', imageCount: 1 }),
expect.objectContaining({ aliasName: 'force field', name: 'force field', imageCount: 1 }),
]);
});
it('should return namespaced suggestions without including namespace', () => {
const result = localAc.matchPrefix('test').topK(defaultK);
expect(result).toEqual([
expect.objectContaining({ aliasName: 'artist:test', name: 'artist:test', imageCount: 1 }),
]);
});
it('should return only the required number of suggestions', () => {
const result = localAc.matchPrefix(termStem).topK(1);
expect(result).toEqual([expect.objectContaining({ aliasName: 'forest', name: 'forest', imageCount: 3 })]);
});
it('should NOT return suggestions associated with hidden tags', () => {
window.booru.hiddenTagList = [1];
const result = localAc.matchPrefix(termStem).topK(defaultK);
expect(result).toEqual([]);
});
it('should return empty array for empty prefix', () => {
const result = localAc.matchPrefix('').topK(defaultK);
expect(result).toEqual([]);
});
});
});