public SampleWorkload()
{
// This sample file contains a poisson distributed workload
var json = File.ReadAllText("workload.json");
var workload = (SampleEvent[])JsonConvert.DeserializeObject(json, typeof(SampleEvent[]));
// Determine individual customer classes
var workloadPerTypes = workload.GroupBy(e => e.Type, e => e).ToDictionary(g => g.Key, g => g.ToArray());
_queueingTheoryInfos = new Dictionary <FeatureIdentifier, QueueingTheoryInfo>();
// Calculate the queueing theory representation for every customer class
foreach (var workloadTypePair in workloadPerTypes)
{
var events = workloadTypePair.Value;
var timeBetweenArrivals = new List <int>();
var serviceTimes = new List <int>();
for (var i = 1; i < events.Length; i++)
{
timeBetweenArrivals.Add(events[i].ArrivalTime - events[i - 1].ArrivalTime);
serviceTimes.Add(events[i].ServiceTime);
}
var meanInterArrivalTime = (int)Math.Round(timeBetweenArrivals.Average());
var meanServiceTime = (int)Math.Round(serviceTimes.Average());
var featureId = new FeatureIdentifier(workloadTypePair.Key);
var chanceOfOccurance = (double)events.Length / workload.Length;
_queueingTheoryInfos[featureId] = new QueueingTheoryInfo(meanInterArrivalTime, meanServiceTime, chanceOfOccurance, new [] { workloadTypePair.Key });
}
}
public void Constructor_WithUtilizationLargerThan1_ThrowsException()
{
Assert.Throws <ArgumentException>(() =>
{
var types = new[] { "test" };
var sot = new QueueingTheoryInfo(5, 10, 1, types);
});
}
public void Constructor_Sets_Fields_Correctly()
{
var types = new[] { "test" };
var sot = new QueueingTheoryInfo(10, 5, 1, types);
Assert.AreEqual(10, sot.MeanInterArrivalTime);
Assert.AreEqual(5, sot.MeanServiceTime);
Assert.AreEqual(1, sot.ChanceOfOccurance);
Assert.AreEqual(0.1d, sot.MeanArrivalRate);
Assert.AreEqual(0.2d, sot.MeanServiceRate);
Assert.AreEqual(10, sot.MeanWaitingTime);
Assert.AreEqual(15, sot.SojournTime);
CollectionAssert.AreEqual(types.Select(t => new FeatureIdentifier(t)), sot.Types);
}
public void PlusOperator_Returns_CorrectResult()
{
var firstTypes = new[] { "first" };
var firstClass = new QueueingTheoryInfo(50, 5, 0.5, firstTypes);
var secondTypes = new[] { "second" };
var secondClass = new QueueingTheoryInfo(20, 10, 0.5, secondTypes);
var result = firstClass + secondClass;
Assert.AreEqual(35, result.MeanInterArrivalTime);
Assert.AreEqual(7.5d, result.MeanServiceTime);
var newTypes = new[] { new FeatureIdentifier("first"), new FeatureIdentifier("second") };
CollectionAssert.AreEqual(newTypes, result.Types);
}
