public void TestNested() { TimerStack myTimer = TimerStack.Instance; myTimer.Reset(); using (myTimer.Scoped("foo")) { for (int i = 0; i < 5; i++) { using (myTimer.Scoped("bar")) { } } } var rootChildren = myTimer.RootNode.Children; Assert.That(rootChildren, Contains.Key("foo")); Assert.AreEqual(rootChildren["foo"].NumCalls, 1); var fooChildren = rootChildren["foo"].Children; Assert.That(fooChildren, Contains.Key("bar")); Assert.AreEqual(fooChildren["bar"].NumCalls, 5); myTimer.Reset(); Assert.AreEqual(myTimer.RootNode.Children, null); }
public void TestNested() { TimerStack myTimer = TimerStack.Instance; myTimer.Reset(); using (myTimer.Scoped("foo")) { for (int i = 0; i < 5; i++) { using (myTimer.Scoped("bar")) { myTimer.SetGauge("my_gauge", i); myTimer.AddMetadata("i", $"{i}"); } } } var rootChildren = myTimer.RootNode.Children; Assert.That(rootChildren, Contains.Key("foo")); Assert.AreEqual(rootChildren["foo"].NumCalls, 1); var gauge = myTimer.RootNode.Gauges["my_gauge"]; Assert.NotNull(gauge); Assert.AreEqual(5, gauge.count); Assert.AreEqual(0, gauge.minValue); Assert.AreEqual(4, gauge.maxValue); Assert.AreEqual(4, gauge.value); Assert.AreEqual("4", myTimer.RootNode.Metadata["i"]); var fooChildren = rootChildren["foo"].Children; Assert.That(fooChildren, Contains.Key("bar")); Assert.AreEqual(fooChildren["bar"].NumCalls, 5); myTimer.Reset(); Assert.AreEqual(myTimer.RootNode.Children, null); }
public void TestGauges() { TimerStack myTimer = TimerStack.Instance; myTimer.Reset(); // Simple test - adding 1's should keep that for the weighted and running averages. myTimer.SetGauge("one", 1.0f); var oneNode = myTimer.RootNode.Gauges["one"]; Assert.AreEqual(oneNode.weightedAverage, 1.0f); Assert.AreEqual(oneNode.runningAverage, 1.0f); for (int i = 0; i < 10; i++) { myTimer.SetGauge("one", 1.0f); } Assert.AreEqual(oneNode.weightedAverage, 1.0f); Assert.AreEqual(oneNode.runningAverage, 1.0f); // Try some more interesting values myTimer.SetGauge("increasing", 1.0f); myTimer.SetGauge("increasing", 2.0f); myTimer.SetGauge("increasing", 3.0f); myTimer.SetGauge("decreasing", 3.0f); myTimer.SetGauge("decreasing", 2.0f); myTimer.SetGauge("decreasing", 1.0f); var increasingNode = myTimer.RootNode.Gauges["increasing"]; var decreasingNode = myTimer.RootNode.Gauges["decreasing"]; // Expect the running average to be (roughly) the same, // but weighted averages will be biased differently. Assert.AreEqual(increasingNode.runningAverage, 2.0f); Assert.AreEqual(decreasingNode.runningAverage, 2.0f); // The older values are actually weighted more heavily, so we expect the // increasing series to have a lower moving average. Assert.Less(increasingNode.weightedAverage, decreasingNode.weightedAverage); }