static async Task Main(string[] args) { if (args.Length == 1) { if (args[0] == "testbed") { var stopwatch = new System.Diagnostics.Stopwatch(); stopwatch.Start(); await TestBed.Run(); Console.WriteLine($"Done in {stopwatch.ElapsedMilliseconds} ms"); } // else if (args[0] == "benchmark") { // Benchmarks.Run(); // } else { Console.WriteLine($"Unknown command \"{args[0]}\""); } } else { var scriptText = args.Length switch { 0 => GetAllInput(), 2 => args[0] switch { "file" => await File.ReadAllTextAsync(args[1], Encoding.UTF8), "command" => args[1], _ => throw new ArgumentException($"Unknown type {args[0]}, expecting (file|command)") },
public void ArrivalAsyncTest() { var portQuery = Mock.Of <ISingleQueryPortByIntCode>(); Mock.Get(portQuery).Setup(s => s.UseIntCode("port code")).Returns(portQuery).Verifiable(); Mock.Get(portQuery).Setup(s => s.ExecuteAsync()) .Returns(Task.FromResult(new Port() { Id = "port id", IntlCode = "port code", Name = "port name" })); var ship = new Ship(); var shipRef = new TestEntityRef <Ship>("ship id", ship); var shipQuery = Mock.Of <ISingleQueryShipByRegCode>(MockBehavior.Strict); ship.RegisterShip(new RegisterShipEvent( DateTime.Now, "event id", shipRef, new Port() { Id = "start port id", IntlCode = "start port", Name = "start port name" }, "ship name", "ship code" )); Mock.Get(shipQuery).Setup(s => s.UseRegCode("ship code")).Returns(shipQuery).Verifiable(); Mock.Get(shipQuery).Setup(s => s.ExecuteAsync()) .Returns(Task.FromResult(ship)); var sp = TestBed.Create <TrackingService>(MockBehavior.Strict, (sc) => { sc.AddSingleton <ISingleQueryPortByIntCode>(portQuery); sc.AddSingleton <ISingleQueryShipByRegCode>(shipQuery); }); Mock.Get(sp.GetRequiredService <IQueueService>()) .Setup(s => s.AddEvent <DomainEvent>(It.IsAny <ArriveEvent>())) .Callback((DomainEvent de) => { Assert.NotNull(de); var ae = de as ArriveEvent; Assert.NotNull(de); Assert.Equal(shipRef, ae.Ship); Assert.Equal("port id", ae.Port.Id); Assert.Equal("port code", ae.Port.IntlCode); }) .Returns(Task.CompletedTask); Mock.Get(sp.GetRequiredService <IReferenceService <Ship> >()) .Setup(s => s.GetRef(shipQuery)).Returns(shipRef); var srv = sp.GetService <TrackingService>(); srv.ArrivalAsync("event id", "ship code", "port code").GetAwaiter().GetResult(); }
public void PositionRoundTrips() { using (var t = new TestBed(50)) { t.DecryptedStream.Position = 20; Assert.AreEqual(20, t.DecryptedStream.Position); } }
public void DecryptAllFromBeginning() { using (var t = new TestBed(4 * TestBed.BlockSizeInBytes)) { var expectedPlainText = t.PlainText; var actualPlainText = t.DecryptedReader.ReadBytes(expectedPlainText.Length); CollectionAssert.AreEqual(expectedPlainText, actualPlainText); } }
public void SeekIntoFirstBlock() { using (var t = new TestBed(2 * TestBed.BlockSizeInBytes)) { var somewhereInFirstBlock = (Int32)(0.5 * TestBed.BlockSizeInBytes); t.DecryptedStream.Position = somewhereInFirstBlock; Assert.AreEqual(t.PlainText[somewhereInFirstBlock], t.DecryptedStream.ReadByte()); } }
public void DecryptAdvancesPosition() { using (var t = new TestBed(4)) { t.DecryptedStream.ReadByte(); t.DecryptedStream.ReadByte(); t.DecryptedStream.ReadByte(); Assert.AreEqual(3, t.DecryptedStream.Position); } }
public void OnTestClicked() { Assembly result = Compile(); if (result != null) { TestBed tester = (TestBed)result.CreateInstance("Test"); Console.Write("\n"); tester.Run(); } Console.NewPrompt(); }
public void TestFactorial() { Assert.AreEqual(1, TestBed.Factorial(1)); Assert.AreEqual(2, TestBed.Factorial(2)); Assert.AreEqual(6, TestBed.Factorial(3)); Assert.AreEqual(120, TestBed.Factorial(5)); Assert.AreEqual(1, TestBed.FactorialIterative(1)); Assert.AreEqual(2, TestBed.FactorialIterative(2)); Assert.AreEqual(6, TestBed.FactorialIterative(3)); Assert.AreEqual(120, TestBed.FactorialIterative(5)); }
public void DecryptMiddlePartialBlocks() { using (var t = new TestBed(5 * TestBed.BlockSizeInBytes)) { var offset = (Int32)(2.5 * TestBed.BlockSizeInBytes); var length = TestBed.BlockSizeInBytes; var expected = new ArraySegment <Byte>(t.PlainText, offset, length); t.DecryptedStream.Position = offset; var actual = t.DecryptedReader.ReadBytes(length); CollectionAssert.AreEqual(expected, actual); } }
public void ProcessEvents() { var sp = TestBed.Create <QueueService>(MockBehavior.Loose); var srv = sp.GetService <QueueService>(); var @e1 = new MyDomainEvent("1"); var @e2 = new MyDomainEvent("2"); Task.Run(async() => { await srv.AddEvent(@e1); await Task.Delay(100); await srv.AddEvent(@e2); }).Wait(); Assert.True(@e1.Processed); Assert.Equal("1", @e1.Id); Assert.True(@e2.Processed); Assert.Equal("2", @e2.Id); }
static void Main(string[] args) { var tests = new TestBed(); tests.Run(); }
public Accessor(TestBed testBed) { this.testBed = testBed; }
static TestHealthChecksMvcTestBed() { TestBed = new TestBed(); }
public static void ClassInitialize(TestContext context) { testBed = TestBed.Create <IdenticonTests>(context); }
public void Test() { using (var testBed = TestBed.Create <RendererTests>(TestContext)) { var bitmap = new Bitmap(100, 100); // Diamond background, should be clipped to viewport bitmap.FillPolygon(Color.FromArgb(30, 0, 0, 255), new PointF[] { new PointF(10, 10), new PointF(10, 90), new PointF(90, 90), new PointF(90, 10), new PointF(10, 10) }); // Entirely contained rectangle bitmap.FillPolygon(Color.FromArgb(230, 40, 40, 40), new PointF[] { new PointF(50, -15), new PointF(115, 50), new PointF(50, 115), new PointF(-15, 50) }); // Center figures with holes bitmap.FillPath(Color.Yellow, GetDiamond(20, 30, 10)); bitmap.FillPath(Color.FromArgb(128, 0, 0, 255), GetDiamond(40, 30, 10)); // The following shapes should not be rendered. bitmap.FillPolygon(Color.Red, new PointF[] { new PointF(-10, -15), new PointF(-5, -10), new PointF(0, 110), new PointF(-15, 115) }); bitmap.FillPolygon(Color.Red, new PointF[] { new PointF(115, -15), new PointF(120, -10), new PointF(120, 110), new PointF(115, 115) }); var surrounding = new Drawing.Path(); surrounding.AddPolygon(new PointF[] { new PointF(-20, -20), new PointF(-20, 120), new PointF(120, 120), new PointF(120, -20) }); // Hole surrounding.AddPolygon(new PointF[] { new PointF(-10, -10), new PointF(110, -10), new PointF(110, 110), new PointF(-10, 110), }); // Black with antialiasing. // Used to ensure there are no rounding errors. bitmap.FillPolygon(Color.Black, new PointF[] { new PointF(5, 5), new PointF(15, 5), new PointF(25, 25), new PointF(15, 25) }); bitmap.FillPolygon(Color.Black, new PointF[] { new PointF(15, 5), new PointF(25, 5), new PointF(15, 25), new PointF(5, 25) }); // White with antialiasing. // Used to ensure there are no rounding errors. bitmap.FillPolygon(Color.White, new PointF[] { new PointF(5, 75), new PointF(15, 75), new PointF(25, 95), new PointF(15, 95) }); bitmap.FillPolygon(Color.White, new PointF[] { new PointF(15, 75), new PointF(25, 75), new PointF(15, 95), new PointF(5, 95) }); using (var stream = new MemoryStream()) { bitmap.SaveAsPng(stream); stream.Position = 0; testBed.AssertEqual(stream, "render.png"); } } }
static TestBusRegistrationMvcTestBed() { TestBed = new TestBed(); }
public Tester(TestBed dbType, string[] queries) { this.dbType = dbType; this.queries = queries; }
public static void ClassInitialize(TestContext context) { testBed = TestBed.CreateWeb <AspNetMvcTests>(context, "Samples\\Jdenticon.AspNet.Mvc.Sample"); }
static void Main(string[] args) { TestBed._Main(args); Console.Write("Press any key to continue . . . "); Console.ReadKey(true); }
public static void ClassInitialize(TestContext context) { testBed = TestBed.CreateDesktop <WpfTests>(context); }
private void Constructor_TestBed() { mTestBed = new TestBed(); }
static TestNetCoreMvcTestBed() { TestBed = new TestBed(); }