public void Fraction98PercentTest() { //Arrange FractionConverter fraction = new FractionConverter(); int percent = 98; //Act FractionModel model = fraction.ConvertToFraction(percent); //Assert Assert.AreNotEqual(null, model); Assert.AreEqual(49, model.Numerator); Assert.AreEqual(50, model.Denominator); }
public async Task <bool> UpdateChangeFailureRate(TableStorageAuth tableStorageAuth, string organization_owner, string project_repo, string buildName_workflowName, int percentComplete, int numberOfDays) { //Gets a list of change failure rate builds AzureTableStorageDA daTableStorage = new AzureTableStorageDA(); string partitionKey = daTableStorage.CreateBuildWorkflowPartitionKey(organization_owner, project_repo, buildName_workflowName); Newtonsoft.Json.Linq.JArray list = daTableStorage.GetTableStorageItems(tableStorageAuth, tableStorageAuth.TableChangeFailureRate, partitionKey); List <ChangeFailureRateBuild> initialBuilds = JsonConvert.DeserializeObject <List <ChangeFailureRateBuild> >(list.ToString()); //Get the list of items we are going to process, within the date/day range List <ChangeFailureRateBuild> builds = new List <ChangeFailureRateBuild>(); foreach (ChangeFailureRateBuild item in initialBuilds) { if (item.StartTime > DateTime.Now.AddDays(-numberOfDays)) { builds.Add(item); } } //Using the percent, convert it to a fraction FractionConverter converter = new FractionConverter(); FractionModel fracationModel = converter.ConvertToFraction(percentComplete); int numerator = fracationModel.Numerator; int denominator = fracationModel.Denominator; //Get builds for positive (builds we will set DeploymentWasSuccessful=true) and negative (builds we will set to DeploymentWasSuccessful=false) Console.WriteLine($"numerator {numerator} / denominator {denominator}"); //TODO: remember how this (x, numerator) syntax works so it can be documented. oooof. List <ChangeFailureRateBuild> postiveBuilds = builds.Where((x, numerator) => numerator % denominator != 0).ToList(); List <ChangeFailureRateBuild> negativeBuilds = builds.Where((x, numerator) => numerator % denominator == 0).ToList(); //Make the updates TableStorageCommonDA tableChangeFailureRateDA = new TableStorageCommonDA(tableStorageAuth, tableStorageAuth.TableChangeFailureRate); foreach (ChangeFailureRateBuild item in postiveBuilds) { item.DeploymentWasSuccessful = true; await daTableStorage.UpdateChangeFailureRate(tableChangeFailureRateDA, item, partitionKey, true); } foreach (ChangeFailureRateBuild item in negativeBuilds) { item.DeploymentWasSuccessful = false; await daTableStorage.UpdateChangeFailureRate(tableChangeFailureRateDA, item, partitionKey, true); } return(true); }
public void UpdateUnitSystem(UnitSystem unitSystem) { this.unitSystem = unitSystem; this.TextBox.Clear(); if (unitSystem != null) { string temperature = "Temperature: \t\t" + TemperatureConverter.GetUnitAsString(unitSystem.TemperatureUnit); string pressure = "Pressure: \t\t\t" + PressureConverter.GetUnitAsString(unitSystem.PressureUnit); string massFlowRate = "Mass Flow Rate: \t\t" + MassFlowRateConverter.GetUnitAsString(unitSystem.MassFlowRateUnit); string volumeFlowRate = "Volume Flow Rate: \t\t" + VolumeFlowRateConverter.GetUnitAsString(unitSystem.VolumeFlowRateUnit); string moistureContent = "Moisture Content: \t\t" + MoistureContentConverter.GetUnitAsString(unitSystem.MoistureContentUnit); string relativeHumidity = "Fraction: \t\t\t" + FractionConverter.GetUnitAsString(unitSystem.FractionUnit); string enthalpy = "Specific Energy: \t\t" + SpecificEnergyConverter.GetUnitAsString(unitSystem.SpecificEnergyUnit); string specificHeat = "Specific Heat: \t\t" + SpecificHeatConverter.GetUnitAsString(unitSystem.SpecificHeatUnit); string energy = "Energy: \t\t\t" + EnergyConverter.GetUnitAsString(unitSystem.EnergyUnit); string power = "Power: \t\t\t" + PowerConverter.GetUnitAsString(unitSystem.PowerUnit); string density = "Density: \t\t\t" + DensityConverter.GetUnitAsString(unitSystem.DensityUnit); string dynamicViscosity = "Dynamic Viscosity: \t\t" + DynamicViscosityConverter.GetUnitAsString(unitSystem.DynamicViscosityUnit); string kinematicViscosity = "Kinematic Viscosity: \t" + KinematicViscosityConverter.GetUnitAsString(unitSystem.KinematicViscosityUnit); string conductivity = "Thermal Conductivity: \t" + ThermalConductivityConverter.GetUnitAsString(unitSystem.ThermalConductivityUnit); string diffusivity = "Diffusivity: \t\t" + DiffusivityConverter.GetUnitAsString(unitSystem.DiffusivityUnit); string mass = "Mass: \t\t\t" + MassConverter.GetUnitAsString(unitSystem.MassUnit); string length = "Length: \t\t\t" + LengthConverter.GetUnitAsString(unitSystem.LengthUnit); string area = "Area: \t\t\t" + AreaConverter.GetUnitAsString(unitSystem.AreaUnit); string volume = "Volume: \t\t\t" + VolumeConverter.GetUnitAsString(unitSystem.VolumeUnit); string time = "Time: \t\t\t" + TimeConverter.GetUnitAsString(unitSystem.TimeUnit); this.TextBox.AppendText(temperature + "\r\n"); this.TextBox.AppendText(pressure + "\r\n"); this.TextBox.AppendText(massFlowRate + "\r\n"); this.TextBox.AppendText(volumeFlowRate + "\r\n"); this.TextBox.AppendText(moistureContent + "\r\n"); this.TextBox.AppendText(relativeHumidity + "\r\n"); this.TextBox.AppendText(enthalpy + "\r\n"); this.TextBox.AppendText(specificHeat + "\r\n"); this.TextBox.AppendText(energy + "\r\n"); this.TextBox.AppendText(power + "\r\n"); this.TextBox.AppendText(density + "\r\n"); this.TextBox.AppendText(dynamicViscosity + "\r\n"); this.TextBox.AppendText(kinematicViscosity + "\r\n"); this.TextBox.AppendText(conductivity + "\r\n"); this.TextBox.AppendText(diffusivity + "\r\n"); this.TextBox.AppendText(mass + "\r\n"); this.TextBox.AppendText(length + "\r\n"); this.TextBox.AppendText(area + "\r\n"); this.TextBox.AppendText(volume + "\r\n"); this.TextBox.AppendText(time); } }