public void WhiningSpinner_CheckEncodeAndDecode() { Tick t1 = new Tick(); Tick t2 = new Tick(); Tick t3 = new Tick(); Tick t4 = new Tick(); List <Tick> ticks = new List <Tick> { t1, t2, t3 }; WhiningTwine e1 = new WhiningTwine(10, ticks, t4); Assert.AreEqual(10, e1.CreatorId); Assert.IsNotNull(e1.Ticks); Assert.AreEqual(3, e1.Ticks.Count); Assert.AreSame(t1, e1.Ticks[0]); Assert.AreSame(t2, e1.Ticks[1]); Assert.AreSame(t3, e1.Ticks[2]); Assert.AreSame(t4, e1.RequestTick); ByteList bytes = new ByteList(); e1.Encode(bytes); WhiningTwine e2 = WhiningTwine.Create(bytes); Assert.AreEqual(e1.CreatorId, e2.CreatorId); Assert.AreEqual(e1.Ticks.Count, e2.Ticks.Count); Assert.AreEqual(e1.Ticks[0].LogicalClock, e2.Ticks[0].LogicalClock); Assert.AreEqual(e1.Ticks[0].HashCode, e2.Ticks[0].HashCode); Assert.AreEqual(e1.Ticks[1].LogicalClock, e2.Ticks[1].LogicalClock); Assert.AreEqual(e1.Ticks[1].HashCode, e2.Ticks[1].HashCode); Assert.AreEqual(e1.Ticks[2].LogicalClock, e2.Ticks[2].LogicalClock); Assert.AreEqual(e1.Ticks[2].HashCode, e2.Ticks[2].HashCode); Assert.AreEqual(e1.RequestTick.LogicalClock, e2.RequestTick.LogicalClock); Assert.AreEqual(e1.RequestTick.HashCode, e2.RequestTick.HashCode); bytes.Clear(); e1.Encode(bytes); bytes.GetByte(); // Read one byte, which will throw the length off try { e2 = WhiningTwine.Create(bytes); Assert.Fail("Expected an exception to be thrown"); } catch (ApplicationException) { } bytes.Clear(); e1.Encode(bytes); bytes.Add((byte)100); // Add a byte bytes.GetByte(); // Read one byte, which will make the ID wrong try { e2 = WhiningTwine.Create(bytes); Assert.Fail("Expected an exception to be thrown"); } catch (ApplicationException) { } }
public void WhiningSpinner_CheckConstructors() { WhiningTwine e = new WhiningTwine(); Assert.AreEqual(0, e.CreatorId); Assert.IsNotNull(e.Ticks); Assert.AreEqual(0, e.Ticks.Count); Assert.IsNull(e.RequestTick); Tick t1 = new Tick(); Tick t2 = new Tick(); Tick t3 = new Tick(); Tick t4 = new Tick(); List <Tick> ticks = new List <Tick> { t1, t2, t3 }; e = new WhiningTwine(10, ticks, t4); Assert.AreEqual(10, e.CreatorId); Assert.IsNotNull(e.Ticks); Assert.AreEqual(3, e.Ticks.Count); Assert.AreSame(t1, e.Ticks[0]); Assert.AreSame(t2, e.Ticks[1]); Assert.AreSame(t3, e.Ticks[2]); Assert.AreSame(t4, e.RequestTick); }
public void WhiningSpinner_CheckProperties() { Tick t1 = new Tick(); Tick t2 = new Tick(); Tick t3 = new Tick(); Tick t4 = new Tick(); List <Tick> ticks = new List <Tick> { t1, t2, t3 }; WhiningTwine e = new WhiningTwine(10, ticks, t4); Assert.AreEqual(10, e.CreatorId); Assert.IsNotNull(e.Ticks); Assert.AreEqual(3, e.Ticks.Count); Assert.AreSame(t1, e.Ticks[0]); Assert.AreSame(t2, e.Ticks[1]); Assert.AreSame(t3, e.Ticks[2]); Assert.AreSame(t4, e.RequestTick); e.CreatorId = 135; Assert.AreEqual(135, e.CreatorId); e.CreatorId = 0; Assert.AreEqual(0, e.CreatorId); e.CreatorId = Int16.MaxValue; Assert.AreEqual(Int16.MaxValue, e.CreatorId); e.Ticks = null; Assert.IsNull(e.Ticks); e.Ticks = ticks; Assert.AreSame(ticks, e.Ticks); e.RequestTick = null; Assert.IsNull(e.RequestTick); e.RequestTick = t4; Assert.AreSame(t4, e.RequestTick); }