public void TestCtor1() { using (var search = new LogFileSearch(_scheduler, _logFile.Object, "foobar")) { search.Matches.Should().BeEmpty("because the source is empty"); } }
private void DisposeCurrentSearch() { if (_currentSearch != null) { _currentSearch.Dispose(); _currentSearch = null; } }
private void CreateSearch() { DisposeCurrentSearch(); var term = SearchTerm; _currentSearch = !string.IsNullOrEmpty(term) ? new LogFileSearch(_taskScheduler, _logFile, term, _maximumWaitTime) : null; _search.SearchTerm = SearchTerm; }
public void TestDispose() { LogFileSearch search; using (search = new LogFileSearch(_scheduler, _logFile.Object, "foobar")) { search.IsDisposed.Should().BeFalse(); _scheduler.PeriodicTaskCount.Should().Be(1); } search.IsDisposed.Should().BeTrue(); _scheduler.PeriodicTaskCount.Should().Be(0); }
public void TestCtor2() { Add("Hello World!"); using (var search = new LogFileSearch(_scheduler, _logFile.Object, "l")) { _scheduler.RunOnce(); search.Count.Should().Be(3); var matches = search.Matches.ToList(); matches.Should().Equal(new[] { new LogMatch(0, new LogLineMatch(2, 1)), new LogMatch(0, new LogLineMatch(3, 1)), new LogMatch(0, new LogLineMatch(9, 1)) }); } }
public void TestAddListener1() { Add("Hello World!"); using (var search = new LogFileSearch(_scheduler, _logFile.Object, "l")) { search.AddListener(_listener.Object); _scheduler.RunOnce(); _matches.Should().Equal(new[] { new LogMatch(0, new LogLineMatch(2, 1)), new LogMatch(0, new LogLineMatch(3, 1)), new LogMatch(0, new LogLineMatch(9, 1)) }); } }