import * as assert from 'assert'; import * as path from 'path'; import * as sinon from 'sinon'; import Settings from '../settings'; import * as tests from '../tests'; import SyncReader from './sync'; class TestReader extends SyncReader { protected readonly _scandir: sinon.SinonStub = sinon.stub(); constructor(_root: string, _settings: Settings = new Settings()) { super(_root, _settings); } public get scandir(): sinon.SinonStub { return this._scandir; } } describe('Readers → Sync', () => { describe('.read', () => { it('should throw an error when the first call of scandir is broken', () => { const reader = new TestReader('non-exist-directory'); reader.scandir.throws(tests.EPERM_ERRNO); assert.throws(() => reader.read(), { code: 'EPERM' }); }); it('should return empty array when the first call of scandir is broken but this error can be suppressed', () => { const settings = new Settings({ errorFilter: (error) => error.code === 'EPERM' }); const reader = new TestReader('non-exist-directory', settings); reader.scandir.throws(tests.EPERM_ERRNO); const actual = reader.read(); assert.deepStrictEqual(actual, []); }); it('should return entries', () => { const reader = new TestReader('directory'); const fakeDirectoryEntry = tests.buildFakeDirectoryEntry(); const fakeFileEntry = tests.buildFakeFileEntry(); reader.scandir.onFirstCall().returns([fakeDirectoryEntry]); reader.scandir.onSecondCall().returns([fakeFileEntry]); const expected = [fakeDirectoryEntry, fakeFileEntry]; const actual = reader.read(); assert.deepStrictEqual(actual, expected); }); it('should push to results only directories', () => { const settings = new Settings({ entryFilter: (entry) => !entry.dirent.isFile() }); const reader = new TestReader('directory', settings); const fakeDirectoryEntry = tests.buildFakeDirectoryEntry(); const fakeFileEntry = tests.buildFakeFileEntry(); reader.scandir.onFirstCall().returns([fakeDirectoryEntry]); reader.scandir.onSecondCall().returns([fakeFileEntry]); const expected = [fakeDirectoryEntry]; const actual = reader.read(); assert.deepStrictEqual(actual, expected); }); it('should do not read root directory', () => { const settings = new Settings({ deepFilter: () => false }); const reader = new TestReader('directory', settings); const fakeDirectoryEntry = tests.buildFakeDirectoryEntry(); const fakeFileEntry = tests.buildFakeFileEntry(); reader.scandir.onFirstCall().returns([fakeDirectoryEntry]); reader.scandir.onSecondCall().returns([fakeFileEntry]); const expected = [fakeDirectoryEntry]; const actual = reader.read(); assert.deepStrictEqual(actual, expected); }); it('should set base path to entry when the `basePath` option is exist', () => { const settings = new Settings({ basePath: 'base' }); const reader = new TestReader('directory', settings); const fakeDirectoryEntry = tests.buildFakeDirectoryEntry(); const fakeFileEntry = tests.buildFakeFileEntry(); reader.scandir.onFirstCall().returns([fakeDirectoryEntry]); reader.scandir.onSecondCall().returns([fakeFileEntry]); const actual = reader.read(); assert.strictEqual(actual[0].path, path.join('base', fakeDirectoryEntry.name)); assert.strictEqual(actual[1].path, path.join('base', 'fake', fakeFileEntry.name)); }); it('should set base path to entry when the `basePath` option is exist and value is an empty string', () => { const settings = new Settings({ basePath: '' }); const reader = new TestReader('directory', settings); const fakeDirectoryEntry = tests.buildFakeDirectoryEntry(); const fakeFileEntry = tests.buildFakeFileEntry(); reader.scandir.onFirstCall().returns([fakeDirectoryEntry]); reader.scandir.onSecondCall().returns([fakeFileEntry]); const actual = reader.read(); assert.strictEqual(actual[0].path, fakeDirectoryEntry.name); assert.strictEqual(actual[1].path, path.join('fake', fakeFileEntry.name)); }); }); });