/// <summary>
/// Adds a step after this one
/// </summary>
/// <param name="sender"></param>
/// <param name="args"></param>
public void AddSubStepHandler(object sender, EventArgs args)
{
DataDictionary.Tests.SubStep subStep = (DataDictionary.Tests.SubStep)DataDictionary.Generated.acceptor.getFactory().createSubStep();
subStep.Name = "Sub-step" + Nodes.Count;
subStep.Enclosing = Item;
createSubStep(subStep);
}
public override SubStep createSubStep()
{
SubStep retVal = new Tests.SubStep();
_defaultValueSetter.SetDefaultValue(retVal);
return(retVal);
}
/// <summary>
/// Creates a section for a given test case
/// </summary>
/// <param name="runner">The runner to be used to execute the tests</param>
/// <param name="aFrame">Frame to be displayed</param>
/// <param name="aReportConfig">The report configuration containing display details</param>
/// <param name="activatedRuleConditions">The list that will contain the rules activated by this test case</param>
/// <returns></returns>
public void CreateTestCaseSection(DataDictionary.Tests.Runner.Runner runner, TestCase aTestCase, TestsCoverageReportHandler aReportConfig, HashSet <RuleCondition> activatedRuleConditions, bool createPdf)
{
AddSubParagraph("Test case " + aTestCase.Name);
if (aTestCase.Requirements.Count > 0)
{
AddParagraph("This test case verifies the following requirements");
foreach (DataDictionary.ReqRef reqRef in aTestCase.Requirements)
{
string text = "Requirement " + reqRef.Name;
if (!Utils.Utils.isEmpty(reqRef.Comment))
{
text = text + " : " + reqRef.Comment;
}
AddListItem(text);
}
}
runner.RunUntilStep(null);
activatedRuleConditions.UnionWith(runner.EventTimeLine.GetActivatedRules());
string title = "Test case " + aTestCase.Name;
CreateTable(title,
runner.EventTimeLine.GetActivatedRules(),
aReportConfig.Dictionary.ImplementedRules,
aReportConfig.AddActivatedRulesInTestCases,
aReportConfig.AddNonCoveredRulesInTestCases);
if (createPdf && aReportConfig.AddSteps)
{
foreach (Step step in aTestCase.Steps)
{
if (step.SubSteps.Count > 0)
{
AddSubParagraph(String.Format("Step {0}", step.Name));
DataDictionary.Tests.SubStep firstSubStep = step.SubSteps[0] as DataDictionary.Tests.SubStep;
DataDictionary.Tests.SubStep lastSubStep = step.SubSteps[step.SubSteps.Count - 1] as DataDictionary.Tests.SubStep;
double start = runner.EventTimeLine.GetSubStepActivationTime(firstSubStep);
double end = runner.EventTimeLine.GetNextSubStepActivationTime(lastSubStep);
List <RuleCondition> activatedRules = runner.EventTimeLine.GetActivatedRulesInRange(start, end);
CreateStepTable(runner, step, aTestCase.Dictionary.ImplementedRules.Count, activatedRules, aReportConfig);
if (aReportConfig.AddLog)
{
List <DataDictionary.Tests.Runner.Events.ModelEvent> events = runner.EventTimeLine.GetEventsInRange((uint)start, (uint)end);
foreach (ModelEvent ev in events)
{
AddCode(ev.ToString());
}
}
CloseSubParagraph();
}
}
}
CloseSubParagraph();
}
/// <summary>
/// Creates a new sub-step
/// </summary>
/// <param name="testCase"></param>
/// <returns></returns>
public TestRunnerView.SubStepTreeNode createSubStep(DataDictionary.Tests.SubStep subStep)
{
TestRunnerView.SubStepTreeNode retVal = new TestRunnerView.SubStepTreeNode(subStep);
Item.appendSubSteps(subStep);
Nodes.Add(retVal);
return(retVal);
}
/// <summary>
/// Initializes the train parametersand the parameters required for Subset-076
/// </summary>
/// <param name="workbook"></param>
/// <param name="aStep"></param>
protected override void InitializeInput(Workbook workbook, Step aStep)
{
base.InitializeInput(workbook, aStep);
// This is only relevant for Subset-076 testing
SubStep step = new SubStep {Name = "EB release and Distance inaccuracy"};
Worksheet aWorksheet = (Worksheet) workbook.Sheets[1];
Range aRange = aWorksheet.UsedRange;
AddAction(step,
"Kernel.NationalValues.DefaultValues.PermToReleaseEmergencyBrake <- Messages.Q_NVEMRRLS.Revoke_emergency_brake_command_when_permitted_speed_supervision_limit_is_no_longer_exceeded");
// Speed inaccuracies
{
if (!CurvesImporterUtils.CellIsEmpty(aRange, 8, 4))
{
string inaccuracy = String.Format(CultureInfo.InvariantCulture, "{0:0.0#}",
(double) CurvesImporterUtils.GetCellContents(aRange, 8, 4).Value2);
AddAction(step, "OdometryInterface.FixedSpeedInaccuracy <- True");
AddAction(step, "OdometryInterface.SpeedInaccuracyCoefficient <- " + inaccuracy);
}
else
{
AddAction(step, "OdometryInterface.FixedSpeedInaccuracy <- False");
}
}
// Distance inaccuracies
{
// Dedfault values, just in case. They correspond to Subset-041, but should also be present in the Excel sheet
// if Subset-041 is selected
string inaccuracy = "5.0";
string offset = "5.0";
if (!CurvesImporterUtils.CellIsEmpty(aRange, 9, 4) && !CurvesImporterUtils.CellIsEmpty(aRange, 10, 4))
{
offset = String.Format(CultureInfo.InvariantCulture, "{0:0.0#}",
(double) CurvesImporterUtils.GetCellContents(aRange, 9, 4).Value2);
inaccuracy = String.Format(CultureInfo.InvariantCulture, "{0:0.0#}",
(double) CurvesImporterUtils.GetCellContents(aRange, 10, 4).Value2);
}
AddAction(step, "OdometryInterface.DistanceOffset <- " + offset);
AddAction(step, "OdometryInterface.DistanceInaccuracyCoefficient <- " + inaccuracy);
}
step.setSkipEngine(true);
aStep.AddModelElement(step);
}
private void verifyInputForLambda(TestCase aTestCase, Workbook workbook)
{
Step aStep = new Step();
aStep.Name = "Step1 - Verify input";
aTestCase.AddModelElement(aStep);
/*********************************** TRAIN DATA ***********************************/
SubStep aSubStep = new SubStep();
aSubStep.Name = "SubStep1 - Train data";
aStep.AddModelElement(aSubStep);
addAction(aSubStep, "Kernel.TrainData.BrakingParameters.ConversionModel.Initialize()");
addAction(aSubStep, "Kernel.SpeedAndDistanceMonitoring.ReleaseSpeedSupervision.UpdateReleaseSpeed()");
addExpectation(aSubStep, "Kernel.TrainData.BrakingParameters.ConversionModel.ConversionModelIsUsed() == True");
/********************************* BRAKE PARAMETERS *********************************/
aSubStep = new SubStep();
aSubStep.Name = "SubStep2 - Brake parameters";
aStep.AddModelElement(aSubStep);
Worksheet aWorksheet = workbook.Sheets[5] as Worksheet;
Range aRange = aWorksheet.UsedRange;
addAction(aSubStep, "Kernel.SpeedAndDistanceMonitoring.TargetSupervision.InitializeTimeIntervals()");
/* Verifying kto */
addExpectation(aSubStep, String.Format(CultureInfo.InvariantCulture, "Kernel.TrainData.BrakingParameters.ConversionModel.kto() == {0:0.0#}", (double)(aRange.Cells[7, 6] as Range).Value2));
if (TargetSpeed == 0) /* In this case, the values of T_brake_emergency_cmt and T_brake_service_cmt do not make sense (3.13.3.4.4.1) */
{
/* Verifying T_brake_emergency_cm0 */
addExpectation(aSubStep, String.Format(CultureInfo.InvariantCulture, "Kernel.TrainData.BrakingParameters.ConversionModel.T_brake_emergency_cm0 == {0:0.0#}", (double)(aRange.Cells[8, 6] as Range).Value2));
/* Verifying T_brake_service_cm0 */
addExpectation(aSubStep, String.Format(CultureInfo.InvariantCulture, "Kernel.TrainData.BrakingParameters.ConversionModel.T_brake_service_cm0 == {0:0.0#}", (double)(aRange.Cells[10, 6] as Range).Value2));
}
else /* In this case, the values of T_brake_emergency_cm0 and T_brake_service_cm0 do not make sense (3.13.3.4.4.1) */
{
/* Verifying T_brake_emergency_cmt */
addExpectation(aSubStep, String.Format(CultureInfo.InvariantCulture, "Kernel.TrainData.BrakingParameters.ConversionModel.T_brake_emergency_cmt == {0:0.0#}", (double)(aRange.Cells[9, 6] as Range).Value2));
/* Verifying T_brake_service_cmt */
addExpectation(aSubStep, String.Format(CultureInfo.InvariantCulture, "Kernel.TrainData.BrakingParameters.ConversionModel.T_brake_service_cmt == {0:0.0#}", (double)(aRange.Cells[11, 6] as Range).Value2));
}
/* Verifying T_be */
addExpectation(aSubStep, String.Format(CultureInfo.InvariantCulture, "Kernel.TrainData.BrakingParameters.T_be() == {0:0.0#}", (double)(aRange.Cells[12, 6] as Range).Value2));
/* Verifying T_bs */
addExpectation(aSubStep, String.Format(CultureInfo.InvariantCulture, "Kernel.TrainData.BrakingParameters.T_bs() == {0:0.0#}", (double)(aRange.Cells[13, 6] as Range).Value2));
/********************* BRAKE PARAMETERS (A_brake_emergency) *********************/
aSubStep = new SubStep();
aSubStep.Name = "SubStep3 - Brake parameters (A_brake_emergency)";
aStep.AddModelElement(aSubStep);
/* Verifying A_brake_emergency */
double doubleValue = -1;
double temp;
for (int i = 16; i <= 27; i++)
{
temp = (double)(aRange.Cells[i, 10] as Range).Value2;
if (doubleValue != temp)
{
if (doubleValue != -1)
{
addExpectation(aSubStep, String.Format(CultureInfo.InvariantCulture, "ERA_BrakingCurvesVerification.Compare\n(\n Val1 => Kernel.TrainData.BrakingParameters.ConversionModel.A_brake_emergency(V => {0:0.0########}),\n Val2 => {1:0.0########}\n)", (double)(aRange.Cells[i, 9] as Range).Value2 - 0.000000001, doubleValue));
}
doubleValue = temp;
double speedValue = (double)(aRange.Cells[i, 9] as Range).Value2;
if (Math.Abs(speedValue - Math.Round(speedValue, 8)) > 0)
{
speedValue += 0.000000001;
}
addExpectation(aSubStep, String.Format(CultureInfo.InvariantCulture, "ERA_BrakingCurvesVerification.Compare\n(\n Val1 => Kernel.TrainData.BrakingParameters.ConversionModel.A_brake_emergency(V => {0:0.0########}),\n Val2 => {1:0.0########}\n)", speedValue, doubleValue));
}
}
/* Verifying V_lim EBI */
addExpectation(aSubStep, String.Format(CultureInfo.InvariantCulture, "ERA_BrakingCurvesVerification.Compare\n(\n Val1 => Kernel.TrainData.BrakingParameters.ConversionModel.A_brake_emergency.Val1.SpeedStep,\n Val2 => {0:0.0########}\n)", (double)(aRange.Cells[17, 9] as Range).Value2));
/*********************** BRAKE PARAMETERS (A_brake_service) ***********************/
aSubStep = new SubStep();
aSubStep.Name = "SubStep4 - Brake parameters (A_brake_service)";
aStep.AddModelElement(aSubStep);
/* Verifying A_brake_service */
doubleValue = -1;
for (int i = 16; i <= 27; i++)
{
temp = (double)(aRange.Cells[i, 14] as Range).Value2;
if (doubleValue != temp)
{
if (doubleValue != -1)
{
addExpectation(aSubStep, String.Format(CultureInfo.InvariantCulture, "ERA_BrakingCurvesVerification.Compare\n(\n Val1 => Kernel.TrainData.BrakingParameters.ConversionModel.A_brake_service(V => {0:0.0########}),\n Val2 => {1:0.0########}\n)", (double)(aRange.Cells[i, 13] as Range).Value2 - 0.000000001, doubleValue));
}
doubleValue = temp;
double speedValue = (double)(aRange.Cells[i, 13] as Range).Value2;
if (Math.Abs(speedValue - Math.Round(speedValue, 8)) > 0)
{
speedValue += 0.000000001;
}
addExpectation(aSubStep, String.Format(CultureInfo.InvariantCulture, "ERA_BrakingCurvesVerification.Compare\n(\n Val1 => Kernel.TrainData.BrakingParameters.ConversionModel.A_brake_service(V => {0:0.0########}),\n Val2 => {1:0.0########}\n)", speedValue, doubleValue));
}
}
/* Verifying V_lim BS */
addExpectation(aSubStep, String.Format(CultureInfo.InvariantCulture, "ERA_BrakingCurvesVerification.Compare\n(\n Val1 => Kernel.TrainData.BrakingParameters.ConversionModel.A_brake_service.Val1.SpeedStep,\n Val2 => {0:0.0########}\n)", (double)(aRange.Cells[17, 13] as Range).Value2));
}
private void verifyInputForGamma(TestCase aTestCase, Workbook workbook)
{
Step aStep = new Step();
aStep.Name = "Step1 - Verify input";
aTestCase.AddModelElement(aStep);
/*********************************** TRAIN DATA ***********************************/
SubStep aSubStep = new SubStep();
aSubStep.Name = "SubStep1 - Train data";
aStep.AddModelElement(aSubStep);
addAction(aSubStep, "Kernel.SpeedAndDistanceMonitoring.ReleaseSpeedSupervision.UpdateReleaseSpeed()");
addExpectation(aSubStep, "Kernel.TrainData.BrakingParameters.ConversionModel.ConversionModelIsUsed() == False");
}
private void intializeEFS(TestCase aTestCase, Workbook workbook)
{
Step aStep = new Step();
aStep.Name = "Step1 - Setup";
aTestCase.AddModelElement(aStep);
SubStep aSubStep = new SubStep();
aSubStep.Name = "SubStep1 - Setup";
aSubStep.setSkipEngine(true);
aStep.AddModelElement(aSubStep);
TestAction levelInitialization = new TestAction();
levelInitialization.Expression = "Kernel.Level <- Kernel.LevelData\n{\n Value => Level.L1,\n DataState => DataState.Valid\n}";
aSubStep.AddModelElement(levelInitialization);
TestAction odometryInitialization = new TestAction();
odometryInitialization.Expression = "Odometry.NominalDistance <- 0.0";
aSubStep.AddModelElement(odometryInitialization);
}
private void addExpectation(SubStep aSubStep, string expression)
{
Expectation anExpectation = new Expectation();
anExpectation.Expression = expression;
anExpectation.Blocking = true;
aSubStep.AddModelElement(anExpectation);
}
private void importGammaBrakeParameters(SubStep aSubStep, Worksheet aWorksheet, int brakesCombinationColumnNumber, int dataColumnNumber, bool initializeBrakes)
{
Range aRange = aWorksheet.UsedRange;
string ebBrakesCombination = "";
string sbBrakesCombination = ""; // magnetic shoe brake is not taken in account for SB
object obj = (aRange.Cells[7, brakesCombinationColumnNumber] as Range).Value2;
if (obj != null)
{
if (initializeBrakes)
addAction(aSubStep, String.Format("Kernel.TrainData.TrainData.Value.EddyCurrentBrake <- Kernel.TrainData.BrakingParameters.SpecialBrake\n{{\n IsActive => True,\n InterfaceStatus => Kernel.TrainData.BrakingParameters.BrakeInterfaceStatus.Both\n}}"));
ebBrakesCombination += obj == null ? "" : "EddyCurrent";
sbBrakesCombination += obj == null ? "" : "EddyCurrent";
}
obj = (aRange.Cells[8, brakesCombinationColumnNumber] as Range).Value2;
if (obj != null)
{
if (initializeBrakes)
addAction(aSubStep, String.Format("Kernel.TrainData.TrainData.Value.MagneticShoeBrake <- Kernel.TrainData.BrakingParameters.SpecialBrake\n{{\n IsActive => True,\n InterfaceStatus => Kernel.TrainData.BrakingParameters.BrakeInterfaceStatus.Both\n}}"));
ebBrakesCombination += ebBrakesCombination == "" ? "Magnetic" : "_Magnetic";
}
obj = (aRange.Cells[6, brakesCombinationColumnNumber] as Range).Value2;
if (obj != null)
{
if (initializeBrakes)
addAction(aSubStep, String.Format("Kernel.TrainData.TrainData.Value.RegenerativeBrake <- Kernel.TrainData.BrakingParameters.SpecialBrake\n{{\n IsActive => True,\n InterfaceStatus => Kernel.TrainData.BrakingParameters.BrakeInterfaceStatus.Both\n}}"));
ebBrakesCombination += ebBrakesCombination == "" ? "Regenerative" : "_Regenerative";
sbBrakesCombination += sbBrakesCombination == "" ? "Regenerative" : "_Regenerative";
}
/* Initializing EB deceleration */
double doubleValue = -1;
double temp;
int index = 0;
for (int i = 0; i < 14; i += 2)
{
temp = (double)(aRange.Cells[i + 7, dataColumnNumber + 2] as Range).Value2;
if (doubleValue != temp)
{
double speed = (double)(aRange.Cells[i + 7, dataColumnNumber] as Range).Value2;
doubleValue = temp;
addAction(aSubStep, String.Format(CultureInfo.InvariantCulture, "Kernel.TrainData.TrainData.Value.EBModels.ModelSet.{0}.Val{1} <- Kernel.TrainData.BrakingParameters.BrakingModelValue\n{{\n SpeedStep => {2:0.0###},\n Acceleration => {3:0.0###}\n}}", ebBrakesCombination, index, speed, doubleValue));
index++;
}
}
addAction(aSubStep, String.Format(CultureInfo.InvariantCulture, "Kernel.TrainData.TrainData.Value.EBModels.ModelSet.{0}.Val{1} <- Kernel.TrainData.BrakingParameters.BrakingModelValue\n{{\n SpeedStep => Default.BaseTypes.Speed.Infinity,\n Acceleration => {2:0.0###}\n}}", ebBrakesCombination, index, doubleValue));
/* Initializing EB confidence level */
/// TODO: how can I recover the value of the confidence level? (should be at the line 21....)
/* Initializing Kdry_rst */
addAction(aSubStep,
String.Format(CultureInfo.InvariantCulture,
"Kernel.TrainData.TrainData.Value.EBModels.Kdry_rstValuesSet.{0}.{1} <- Kernel.TrainData.BrakingParameters.CorrectFactorValue\n{{\n CF0 => {2:0.0###},\n CF1 => {3:0.0###},\n CF2 => {4:0.0###},\n CF3 => {5:0.0###},\n CF4 => {6:0.0###},\n CF5 => {7:0.0###},\n CF6 => {8:0.0###}\n}}",
ebBrakesCombination,
"Cl__99_9999999", // this value should be provided by the previous step
(double)(aRange.Cells[23, dataColumnNumber + 2] as Range).Value2,
(double)(aRange.Cells[25, dataColumnNumber + 2] as Range).Value2,
(double)(aRange.Cells[27, dataColumnNumber + 2] as Range).Value2,
(double)(aRange.Cells[29, dataColumnNumber + 2] as Range).Value2,
(double)(aRange.Cells[31, dataColumnNumber + 2] as Range).Value2,
(double)(aRange.Cells[33, dataColumnNumber + 2] as Range).Value2,
(double)(aRange.Cells[35, dataColumnNumber + 2] as Range).Value2));
/* Initializing Kwet_rst */
addAction(aSubStep,
String.Format(CultureInfo.InvariantCulture,
"Kernel.TrainData.TrainData.Value.EBModels.Kwet_rstValuesSet.{0} <- Kernel.TrainData.BrakingParameters.CorrectFactorValue\n{{\n CF0 => {1:0.0###},\n CF1 => {2:0.0###},\n CF2 => {3:0.0###},\n CF3 => {4:0.0###},\n CF4 => {5:0.0###},\n CF5 => {6:0.0###},\n CF6 => {7:0.0###}\n}}",
ebBrakesCombination,
(double)(aRange.Cells[38, dataColumnNumber + 2] as Range).Value2,
(double)(aRange.Cells[40, dataColumnNumber + 2] as Range).Value2,
(double)(aRange.Cells[42, dataColumnNumber + 2] as Range).Value2,
(double)(aRange.Cells[44, dataColumnNumber + 2] as Range).Value2,
(double)(aRange.Cells[46, dataColumnNumber + 2] as Range).Value2,
(double)(aRange.Cells[48, dataColumnNumber + 2] as Range).Value2,
(double)(aRange.Cells[50, dataColumnNumber + 2] as Range).Value2));
/* Initializing T_brake_emergency */
addAction(aSubStep,
String.Format(CultureInfo.InvariantCulture,
"Kernel.TrainData.TrainData.Value.T_brake_emergency.{0} <- {1:0.0###}",
ebBrakesCombination,
(double)(aRange.Cells[52, dataColumnNumber + 3] as Range).Value2));
/* Initializing SB deceleration */
doubleValue = -1;
index = 0;
for (int i = 0; i < 14; i += 2)
{
temp = (double)(aRange.Cells[i + 54, dataColumnNumber + 2] as Range).Value2;
if (doubleValue != temp)
{
double speed = (double)(aRange.Cells[i + 7, dataColumnNumber] as Range).Value2;
doubleValue = temp;
addAction(aSubStep, String.Format(CultureInfo.InvariantCulture, "Kernel.TrainData.TrainData.Value.SBModels.ModelSet.{0}.Val{1} <- Kernel.TrainData.BrakingParameters.BrakingModelValue\n{{\n SpeedStep => {2:0.0###},\n Acceleration => {3:0.0###}\n}}", sbBrakesCombination, index, speed, doubleValue));
index++;
}
}
addAction(aSubStep, String.Format(CultureInfo.InvariantCulture, "Kernel.TrainData.TrainData.Value.SBModels.ModelSet.{0}.Val{1} <- Kernel.TrainData.BrakingParameters.BrakingModelValue\n{{\n SpeedStep => Default.BaseTypes.Speed.Infinity,\n Acceleration => {2:0.0###}\n}}", sbBrakesCombination, index, doubleValue));
/* Initializing T_brake_service */
addAction(aSubStep,
String.Format(CultureInfo.InvariantCulture,
"Kernel.TrainData.TrainData.Value.T_brake_service.{0} <- {1:0.0###}",
sbBrakesCombination,
(double)(aRange.Cells[68, dataColumnNumber + 3] as Range).Value2));
}
private void importCommonTrainDataInformation(SubStep aSubStep, Worksheet aWorksheet, out bool isPassengerTrain)
{
Range aRange = aWorksheet.UsedRange;
/* Initializing the train position */
string readStringValue = (string)(aRange.Cells[15, 4] as Range).Value2;
string decodedStringValue = "";
isPassengerTrain = false;
if (readStringValue.Equals("Passenger in P"))
{
decodedStringValue = "PassengerTrainInP";
isPassengerTrain = true;
}
else if (readStringValue.Equals("Freight in P"))
{
decodedStringValue = "FreightTrainInP";
}
else if (readStringValue.Equals("Freight in G"))
{
decodedStringValue = "FreightTrainInG";
}
else
{
Log.ErrorFormat("Invalid train position");
}
addAction(aSubStep, String.Format("Kernel.TrainData.TrainData.Value.BrakePosition <- Kernel.TrainData.BrakingParameters.BrakePositions.{0}", decodedStringValue));
/* Initializing the traction model */
addAction(aSubStep, String.Format(CultureInfo.InvariantCulture, "Kernel.TrainData.TrainData.Value.TractionModel <- Kernel.TrainData.TractionModel\n{{\n Coefficient => {0:0.0},\n Constant => {1:0.0}\n}}", 0, (double)(aRange.Cells[16, 4] as Range).Value2));
/* Initializing the service brake interface */
readStringValue = (string)(aRange.Cells[17, 4] as Range).Value2;
decodedStringValue = "";
if (readStringValue.Equals("Yes"))
{
decodedStringValue = "True";
}
else if (readStringValue.Equals("No"))
{
decodedStringValue = "False";
}
else
{
Log.ErrorFormat("Invalid value for service brake interface");
}
addAction(aSubStep, String.Format("Kernel.TrainData.TrainData.Value.SBCommandIsImplemented <- {0}", decodedStringValue));
/* Initializing the traction cut off interface */
readStringValue = (string)(aRange.Cells[18, 4] as Range).Value2;
decodedStringValue = "";
if (readStringValue.Equals("Yes"))
{
decodedStringValue = "True";
}
else if (readStringValue.Equals("No"))
{
decodedStringValue = "False";
}
else
{
Log.ErrorFormat("Invalid value for traction cut off interface");
}
addAction(aSubStep, String.Format("Kernel.TrainData.TrainData.Value.TractionCutOffInterfaceIsImplemented <- {0}", decodedStringValue));
/* Initializing special/additional brake independent form wheel/track adhesion */
/// TODO: where is that value?
addAction(aSubStep, String.Format("Kernel.TrainData.BrakingParameters.ContributionOfSpecialBrakeIsAllowed <- {0}", "True"));
/* Initializing the speed inaccuracy */
/// TODO: blocked. Why?
/* Initializing the position inaccuracy */
/// TODO
/* addAction(aSubStep, String.Format(CultureInfo.InvariantCulture, "Kernel.NationalValues.ApplicableNationalValues.Value.DefaultLocationAccuracyOfABaliseGroup <- {0:0}", (double)(aRange.Cells[21, 4] as Range).Value2));*/
/* Initializing the train length */
addAction(aSubStep, String.Format(CultureInfo.InvariantCulture, "Kernel.TrainData.TrainData.Value.TrainLength <- {0:0.0}", (double)(aRange.Cells[22, 4] as Range).Value2));
/* Initializing the nominal rotating mass */
readStringValue = (aRange.Cells[23, 4] as Range).Value2.ToString();
if (readStringValue.Equals("Not known"))
{
addAction(aSubStep, String.Format("Kernel.TrainData.TrainData.Value.M_rotating_nom <- Default.Percentage.NA"));
}
else
{
addAction(aSubStep, String.Format(CultureInfo.InvariantCulture, "Kernel.TrainData.TrainData.Value.M_rotating_nom <- {0:0.0}", (double)(aRange.Cells[23, 4] as Range).Value2));
}
/* Initializing the distance antenna - train front */
addAction(aSubStep, String.Format(CultureInfo.InvariantCulture, "BTM.ActiveAntennaPosition <- {0:0.0}", (double)(aRange.Cells[13, 4] as Range).Value2));
}
private void importCommonTrackDataInformation(SubStep aSubStep, Worksheet aWorksheet)
{
Range aRange = aWorksheet.UsedRange;
/* Initializing the target type */
/// TODO
/* Initializing the MA: target speed, release speed, distance origin/target */
TargetSpeed = (double)(aRange.Cells[2, 2] as Range).Value2;
double releaseSpeed = (double)(aRange.Cells[2, 5] as Range).Value2;
double distance = (double)(aRange.Cells[3, 2] as Range).Value2;
addAction(aSubStep, String.Format(CultureInfo.InvariantCulture, "Kernel.MA.MA <- Kernel.MA.MovementAuthority\n{{\n TargetSpeed => {0:0.0},\n Sections => [],\n EndSection => Kernel.MA.EndSection\n {{\n EndSectionTimeOut => EMPTY,\n Length => {1:0.0},\n DangerPoint => Kernel.MA.DangerPoint\n {{\n Distance => 0.0,\n ReleaseSpeed => {2:0.0}\n }},\n Overlap => EMPTY\n }},\n TargetSpeedTimeOut => 0.0\n}}", TargetSpeed, distance, releaseSpeed));
/* Initializing the initial speed */
addAction(aSubStep, String.Format(CultureInfo.InvariantCulture, "Kernel.MA.SignallingRelatedSpeedRestriction <- {0:0.0}", (double)(aRange.Cells[4, 2] as Range).Value2));
/* Initializing the reduced adhesion interval */
/// TODO: need to find how these values are activated and deactivated
double startLocation = (double)(aRange.Cells[9, 2] as Range).Value2;
double endLocation = (double)(aRange.Cells[10, 2] as Range).Value2;
//addAction(aSubStep, String.Format(CultureInfo.InvariantCulture, "INSERT\n Kernel.TrackDescription.TrackConditions.AdhesionFactor\n {{\n Distance => {0:0.0},\n Length => {1:0.0},\n Value => Messages.M_ADHESION.Slippery_rail\n }}\nIN\n Kernel.TrackDescription.TrackConditions.AdhFactors", startLocation, endLocation - startLocation));
/* Initializing the gradient profile */
double gradientValue = (double)(aRange.Cells[14, 3] as Range).Value2;
double gradientDistance = (double)(aRange.Cells[14, 1] as Range).Value2; ;
for (int i = 15; i <= 33; i++)
{
double temp = (double)(aRange.Cells[i, 3] as Range).Value2;
if (temp != gradientValue || i == 33)
{
addAction(aSubStep, String.Format(CultureInfo.InvariantCulture, "INSERT\n Kernel.TrackDescription.Gradient.GradientInfo\n {{\n Location => {0:0.0},\n Gradient => {1:0.0}\n }}\nIN\n Kernel.TrackDescription.Gradient.Gradients", gradientDistance, gradientValue));
gradientDistance = (double)(aRange.Cells[i, 1] as Range).Value2;
gradientValue = temp;
}
}
/* Initializing the distance EOA/SvL */
/// TODO: => should be a part of an MA?
//doubleValue = (double)(aRange.Cells[1, 5] as Range).Value2;
/* Initializing the type of the release speed (fixed or calculated on-board) */
/// TODO: verify requirements
/* Initializing the relocation balises */
string readStringValue = (string)(aRange.Cells[15, 4] as Range).Value2;
}
private void importCommonNationalValuesInformation(SubStep aSubStep, Worksheet aWorksheet)
{
/* The national values must be valid */
addAction(aSubStep, String.Format(CultureInfo.InvariantCulture, "Kernel.NationalValues.ApplicableNationalValues.DataState <- Default.DataState.Valid"));
Range aRange = aWorksheet.UsedRange;
/* Initializing the usage of service brake in target speed monitoring */
/// TODO: how to extract this value?!
addAction(aSubStep, String.Format(CultureInfo.InvariantCulture, "Kernel.NationalValues.ApplicableNationalValues.Value.UseServiceBrakeInTargetSpeedMonitoring <- Messages.Q_NVSBTSMPERM.Yes"));
/* Initializing the permission to inhibit the compensation of the speed measurement inaccuracy */
/// TODO: how to extract this value?!
addAction(aSubStep, String.Format(CultureInfo.InvariantCulture, "Kernel.NationalValues.ApplicableNationalValues.Value.PermToInhibitTheCompOfTheSpeedMeasurementInaccuracy <- Messages.Q_NVINHSMICPERM.Yes"));
/* Initializing the maximum deceleration value under reduced adhesion conditions(1) */
addAction(aSubStep, String.Format(CultureInfo.InvariantCulture, "Kernel.NationalValues.ApplicableNationalValues.Value.MaxDecelValueUnderReducedAdhesionCond1 <- {0:0.0#}", (double)(aRange.Cells[3, 2] as Range).Value2));
/* Initializing the maximum deceleration value under reduced adhesion conditions(2) */
addAction(aSubStep, String.Format(CultureInfo.InvariantCulture, "Kernel.NationalValues.ApplicableNationalValues.Value.MaxDecelValueUnderReducedAdhesionCond2 <- {0:0.0#}", (double)(aRange.Cells[4, 2] as Range).Value2));
/* Initializing the maximum deceleration value under reduced adhesion conditions(3) */
addAction(aSubStep, String.Format(CultureInfo.InvariantCulture, "Kernel.NationalValues.ApplicableNationalValues.Value.MaxDecelValueUnderReducedAdhesionCond3 <- {0:0.0#}", (double)(aRange.Cells[5, 2] as Range).Value2));
/* Initializing the weighting factor for available wheel/rail adhesion */
addAction(aSubStep, String.Format(CultureInfo.InvariantCulture, "Kernel.NationalValues.ApplicableNationalValues.Value.WeightingFactorForAvailableWheelRailAdhesion <- {0:0.0#}", (double)(aRange.Cells[6, 2] as Range).Value2));
/* Initializing the confidence level for emergency brake safe deceleration on dry rails */
double doubleValue = (double)(aRange.Cells[7, 2] as Range).Value2;
String stringValue = doubleValue.ToString(CultureInfo.InvariantCulture);
string result = "Messages.M_NVEBCL.Confidence_level___99_";
for (int i = 0; i < stringValue.Length - 3; i++)
{
result += "9";
}
addAction(aSubStep, String.Format(CultureInfo.InvariantCulture, "Kernel.NationalValues.ApplicableNationalValues.Value.ConfLevelForEmergBrakeSafeDecelerationOnDryRails <- {0}", result));
}
private void importCommonFixedValuesInformation(SubStep aSubStep, Worksheet aWorksheet)
{
Range aRange = aWorksheet.UsedRange;
/* Initializing dV_ebi_min */
addAction(aSubStep, String.Format(CultureInfo.InvariantCulture, "Kernel.SpeedAndDistanceMonitoring.CeilingSupervision.dV_ebi_min <- {0:0.0#}", (double)(aRange.Cells[1, 2] as Range).Value2));
/* Initializing dV_ebi_max */
addAction(aSubStep, String.Format(CultureInfo.InvariantCulture, "Kernel.SpeedAndDistanceMonitoring.CeilingSupervision.dV_ebi_max <- {0:0.0#}", (double)(aRange.Cells[2, 2] as Range).Value2));
/* Initializing V_ebi_min */
addAction(aSubStep, String.Format(CultureInfo.InvariantCulture, "Kernel.SpeedAndDistanceMonitoring.CeilingSupervision.V_ebi_min <- {0:0.0#}", (double)(aRange.Cells[3, 2] as Range).Value2));
/* Initializing V_ebi_max */
addAction(aSubStep, String.Format(CultureInfo.InvariantCulture, "Kernel.SpeedAndDistanceMonitoring.CeilingSupervision.V_ebi_max <- {0:0.0#}", (double)(aRange.Cells[4, 2] as Range).Value2));
/* Initializing dV_sbi_min */
addAction(aSubStep, String.Format(CultureInfo.InvariantCulture, "Kernel.SpeedAndDistanceMonitoring.CeilingSupervision.dV_sbi_min <- {0:0.0#}", (double)(aRange.Cells[5, 2] as Range).Value2));
/* Initializing dV_sbi_max */
addAction(aSubStep, String.Format(CultureInfo.InvariantCulture, "Kernel.SpeedAndDistanceMonitoring.CeilingSupervision.dV_sbi_max <- {0:0.0#}", (double)(aRange.Cells[6, 2] as Range).Value2));
/* Initializing V_sbi_min */
addAction(aSubStep, String.Format(CultureInfo.InvariantCulture, "Kernel.SpeedAndDistanceMonitoring.CeilingSupervision.V_sbi_min <- {0:0.0#}", (double)(aRange.Cells[7, 2] as Range).Value2));
/* Initializing V_sbi_max */
addAction(aSubStep, String.Format(CultureInfo.InvariantCulture, "Kernel.SpeedAndDistanceMonitoring.CeilingSupervision.V_sbi_max <- {0:0.0#}", (double)(aRange.Cells[8, 2] as Range).Value2));
/* Initializing dV_warning_min */
addAction(aSubStep, String.Format(CultureInfo.InvariantCulture, "Kernel.SpeedAndDistanceMonitoring.CeilingSupervision.dV_warning_min <- {0:0.0#}", (double)(aRange.Cells[9, 2] as Range).Value2));
/* Initializing dV_warning_max */
addAction(aSubStep, String.Format(CultureInfo.InvariantCulture, "Kernel.SpeedAndDistanceMonitoring.CeilingSupervision.dV_warning_max <- {0:0.0#}", (double)(aRange.Cells[10, 2] as Range).Value2));
/* Initializing V_warning_min */
addAction(aSubStep, String.Format(CultureInfo.InvariantCulture, "Kernel.SpeedAndDistanceMonitoring.CeilingSupervision.V_warning_min <- {0:0.0#}", (double)(aRange.Cells[11, 2] as Range).Value2));
/* Initializing V_warning_max */
addAction(aSubStep, String.Format(CultureInfo.InvariantCulture, "Kernel.SpeedAndDistanceMonitoring.CeilingSupervision.V_warning_max <- {0:0.0#}", (double)(aRange.Cells[12, 2] as Range).Value2));
/* Initializing T_warning */
addAction(aSubStep, String.Format(CultureInfo.InvariantCulture, "Kernel.SpeedAndDistanceMonitoring.TargetSupervision.T_warning <- {0:0.0#}", (double)(aRange.Cells[13, 2] as Range).Value2));
/* Initializing T_driver */
addAction(aSubStep, String.Format(CultureInfo.InvariantCulture, "Kernel.SpeedAndDistanceMonitoring.TargetSupervision.T_driver <- {0:0.0#}", (double)(aRange.Cells[14, 2] as Range).Value2));
/* Initializing T_preindication */
addAction(aSubStep, String.Format(CultureInfo.InvariantCulture, "Kernel.SpeedAndDistanceMonitoring.PreIndicationLocation.T_preindication <- {0:0.0#}", (double)(aRange.Cells[15, 2] as Range).Value2));
/* Initializing M_rotating_max */
addAction(aSubStep, String.Format(CultureInfo.InvariantCulture, "Kernel.TrackDescription.Gradient.M_rotating_max <- {0:0.0#}", (double)(aRange.Cells[16, 2] as Range).Value2));
/* Initializing M_rotating_min */
addAction(aSubStep, String.Format(CultureInfo.InvariantCulture, "Kernel.TrackDescription.Gradient.M_rotating_min <- {0:0.0#}", (double)(aRange.Cells[17, 2] as Range).Value2));
}
private void fillBrakingParametersExpectations(TestCase aTestCase, int stepNumber, string name, string expression, List<double> distanceValues, List<double> speedValues, List<double> values)
{
Step aStep = new Step();
aStep.Name = String.Format("Step{0} - {1}", stepNumber, name);
aTestCase.AddModelElement(aStep);
SubStep aSubStep = new SubStep();
aSubStep.Name = String.Format("SubStep1 - Verify {0} values", name);
aStep.AddModelElement(aSubStep);
for (int i = 0; i < values.Count; i++)
{
if (values[i] != -1)
{
Expectation expectation = new Expectation();
expectation.Expression = String.Format(CultureInfo.InvariantCulture, expression, Math.Round(distanceValues[i], 2), Math.Round(speedValues[i], 2), Math.Round(values[i], 4));
aSubStep.AddModelElement(expectation);
}
}
}
public override SubStep createSubStep()
{
SubStep retVal = new Tests.SubStep();
_defaultValueSetter.SetDefaultValue(retVal);
return retVal;
}
private void initializeInputForGamma(TestCase aTestCase, Workbook workbook)
{
Step aStep = new Step();
aStep.Name = "Step1 - Initialize input";
aTestCase.AddModelElement(aStep);
/*********************************** TRAIN DATA ***********************************/
SubStep aSubStep = new SubStep();
aSubStep.Name = "SubStep1 - Train data";
aSubStep.setSkipEngine(true);
aStep.AddModelElement(aSubStep);
/* This is a gamma train => we have to initialize brake models in the train data */
addAction(aSubStep, String.Format("Kernel.TrainData.TrainData.Value.EBModels <- Kernel.TrainData.BrakingParameters.EBModelSet\n{{\n ModelSet => Kernel.TrainData.BrakingParameters.BrakingModelSet{{}},\n Kdry_rstValuesSet => Kernel.TrainData.BrakingParameters.Kdry_rstValuesSet{{}},\n Kwet_rstValuesSet => Kernel.TrainData.BrakingParameters.Kwet_rstValuesSet{{}}\n}}"));
addAction(aSubStep, String.Format("Kernel.TrainData.TrainData.Value.SBModels <- Kernel.TrainData.BrakingParameters.SBModelSet{{}}"));
/* Initializing the maximum train speed */
/* I didn't find this value in ERA sheets, but I observed than their P function can exceed 160 km/h => the maximum speed should be greater than 160 km/h */
addAction(aSubStep, String.Format(CultureInfo.InvariantCulture, "Kernel.TrainData.TrainData.Value.MaximumSpeed <- {0:0.0}", 180.0));
Worksheet aWorksheet = workbook.Sheets[1] as Worksheet;
bool isPassengerTrain;
importCommonTrainDataInformation(aSubStep, aWorksheet, out isPassengerTrain);
/*********************************** TRACK DATA ***********************************/
aSubStep = new SubStep();
aSubStep.Name = "SubStep2 - Track data";
aSubStep.setSkipEngine(true);
aStep.AddModelElement(aSubStep);
aWorksheet = workbook.Sheets[2] as Worksheet;
importCommonTrackDataInformation(aSubStep, aWorksheet);
/*********************************** NATIONAL VALUES ***********************************/
aSubStep = new SubStep();
aSubStep.Name = "SubStep3 - National values";
aSubStep.setSkipEngine(true);
aStep.AddModelElement(aSubStep);
aWorksheet = workbook.Sheets[3] as Worksheet;
importCommonNationalValuesInformation(aSubStep, aWorksheet);
/*********************************** FIXED VALUES ***********************************/
aSubStep = new SubStep();
aSubStep.Name = "SubStep4 - Fixed values";
aSubStep.setSkipEngine(true);
aStep.AddModelElement(aSubStep);
aWorksheet = workbook.Sheets[4] as Worksheet;
importCommonFixedValuesInformation(aSubStep, aWorksheet);
/****************************** BRAKE PARAMETERS (gamma) ******************************/
aSubStep = new SubStep();
aSubStep.Name = "SubStep5 - Brake parameters";
aSubStep.setSkipEngine(true);
aStep.AddModelElement(aSubStep);
aWorksheet = workbook.Sheets[6] as Worksheet;
importGammaBrakeParameters(aSubStep, aWorksheet, 2, 8, true); // first combination
importGammaBrakeParameters(aSubStep, aWorksheet, 3, 20, false); // second combination
/*************************** CORRECTION FACTOR KDRY_RST ***************************/
aSubStep = new SubStep();
aSubStep.Name = "SubStep6 - Correction factor kdry_rst";
aSubStep.setSkipEngine(true);
aStep.AddModelElement(aSubStep);
aWorksheet = workbook.Sheets[7] as Worksheet;
}
private void initializeInputForLambda(TestCase aTestCase, Workbook workbook)
{
Step aStep = new Step();
aStep.Name = "Step1 - Initialize input";
aTestCase.AddModelElement(aStep);
/*********************************** TRAIN DATA ***********************************/
SubStep aSubStep = new SubStep();
aSubStep.Name = "SubStep1 - Train data";
aSubStep.setSkipEngine(true);
aStep.AddModelElement(aSubStep);
/* This is a lambda train => no brake models defined in the train data */
addAction(aSubStep, String.Format("Kernel.TrainData.TrainData.Value.EBModels <- EMPTY"));
addAction(aSubStep, String.Format("Kernel.TrainData.TrainData.Value.SBModels <- EMPTY"));
addAction(aSubStep, String.Format("Kernel.TrainData.TrainData.Value.NormalServiceBrakeModels <- EMPTY"));
addAction(aSubStep, String.Format("Kernel.TrainData.TrainData.Value.T_brake_emergency <- EMPTY"));
addAction(aSubStep, String.Format("Kernel.TrainData.TrainData.Value.T_brake_service <- EMPTY"));
/* Initializing the maximum train speed */
/* This value must be in the range {0km/h; 200km/h}, otherwise the conversion model will not be applicable */
addAction(aSubStep, String.Format(CultureInfo.InvariantCulture, "Kernel.TrainData.TrainData.Value.MaximumSpeed <- {0:0.0}", 180.0));
Worksheet aWorksheet = workbook.Sheets[1] as Worksheet;
bool isPassengerTrain;
importCommonTrainDataInformation(aSubStep, aWorksheet, out isPassengerTrain);
/*********************************** TRACK DATA ***********************************/
aSubStep = new SubStep();
aSubStep.Name = "SubStep2 - Track data";
aSubStep.setSkipEngine(true);
aStep.AddModelElement(aSubStep);
/* This is a lambda train => track condition brake inhibition profile is not applicable */
addAction(aSubStep, String.Format("Kernel.TrackDescription.TrackConditions.TCProfile <- EMPTY"));
aWorksheet = workbook.Sheets[2] as Worksheet;
importCommonTrackDataInformation(aSubStep, aWorksheet);
/*********************************** NATIONAL VALUES ***********************************/
aSubStep = new SubStep();
aSubStep.Name = "SubStep3 - National values";
aSubStep.setSkipEngine(true);
aStep.AddModelElement(aSubStep);
aWorksheet = workbook.Sheets[3] as Worksheet;
importCommonNationalValuesInformation(aSubStep, aWorksheet);
/*********************************** FIXED VALUES ***********************************/
aSubStep = new SubStep();
aSubStep.Name = "SubStep4 - Fixed values";
aSubStep.setSkipEngine(true);
aStep.AddModelElement(aSubStep);
aWorksheet = workbook.Sheets[4] as Worksheet;
importCommonFixedValuesInformation(aSubStep, aWorksheet);
/****************************** BRAKE PARAMETERS (lambda) ******************************/
aSubStep = new SubStep();
aSubStep.Name = "SubStep5 - Brake parameters";
aSubStep.setSkipEngine(true);
aStep.AddModelElement(aSubStep);
aWorksheet = workbook.Sheets[5] as Worksheet;
Range aRange = aWorksheet.UsedRange;
addAction(aSubStep, String.Format(CultureInfo.InvariantCulture, "Kernel.TrainData.TrainData.Value.BrakePercentage <- {0:0.0#}", (double)(aRange.Cells[3, 6] as Range).Value2));
/*************************** INTERGRATED CORRECTION FACTORS ***************************/
aSubStep = new SubStep();
aSubStep.Name = "SubStep6 - Integrated correction factors";
aSubStep.setSkipEngine(true);
aStep.AddModelElement(aSubStep);
aWorksheet = workbook.Sheets[8] as Worksheet;
aRange = aWorksheet.UsedRange;
/* Initializing Kr_int */
int index = 0;
double doubleValue = -1;
double temp;
for (int i = 0; i < 9; i++)
{
temp = (double)(aRange.Cells[i + 32, 2] as Range).Value2;
if (doubleValue != temp)
{
double location = (double)(aRange.Cells[i + 32, 1] as Range).Value2;
doubleValue = temp;
addAction(aSubStep, String.Format(CultureInfo.InvariantCulture, "Kernel.NationalValues.ApplicableNationalValues.Value.IntegratedCorrectionFactorKrInt.Val{0} <- Kernel.NationalValues.KrIntValue\n{{\n LengthStep => {1:0.0},\n Value => {2:0.0####}\n}}", index, location, doubleValue));
index++;
}
}
addAction(aSubStep, String.Format(CultureInfo.InvariantCulture, "Kernel.NationalValues.ApplicableNationalValues.Value.IntegratedCorrectionFactorKrInt.Val{0} <- Kernel.NationalValues.KrIntValue\n{{\n LengthStep => Default.BaseTypes.Length.Infinity,\n Value => {1:0.0####}\n}}", index, doubleValue));
/* Case of a passenger train */
if (isPassengerTrain)
{
/* Initializing Kv_int */
double a = -1;
double b = -1;
double tempA, tempB;
index = 0;
for (int i = 0; i <= 9; i++)
{
tempA = (double)(aRange.Cells[i + 5, 5] as Range).Value2;
tempB = (double)(aRange.Cells[i + 31, 5] as Range).Value2;
if (a != tempA || b != tempB)
{
double speed = (double)(aRange.Cells[i + 5, 4] as Range).Value2;
a = tempA;
b = tempB;
addAction(aSubStep, String.Format(CultureInfo.InvariantCulture, "Kernel.NationalValues.ApplicableNationalValues.Value.IntegratedCorrectionFactorKvInt_PassengerTrain.Val{0} <- Kernel.NationalValues.KvIntValue_PassengerTrain\n{{\n SpeedStep => {1:0.0},\n ValueA => {2:0.0#},\n ValueB => {3:0.0#}\n}}", index, speed, a, b));
index++;
}
}
addAction(aSubStep, String.Format(CultureInfo.InvariantCulture, "Kernel.NationalValues.ApplicableNationalValues.Value.IntegratedCorrectionFactorKvInt_PassengerTrain.Val{0} <- Kernel.NationalValues.KvIntValue_PassengerTrain\n{{\n SpeedStep => Default.BaseTypes.Speed.Infinity,\n ValueA => {1:0.0#},\n ValueB => {2:0.0#}\n}}", index, a, b));
}
else /* Case of freight trains */
{
/* Initializing Kv_int */
doubleValue = -1;
index = 0;
for (int i = 0; i <= 9; i++)
{
temp = (double)(aRange.Cells[i + 5, 2] as Range).Value2;
if (doubleValue != temp)
{
double speed = (double)(aRange.Cells[i + 5, 1] as Range).Value2;
doubleValue = temp;
addAction(aSubStep, String.Format(CultureInfo.InvariantCulture, "Kernel.NationalValues.ApplicableNationalValues.Value.IntegratedCorrectionFactorKvInt_FreightTrain.Val{0} <- Kernel.NationalValues.KvIntValue_FreightTrain\n{{\n SpeedStep => {1:0.0},\n Value => {2:0.0#}\n}}", index, speed, doubleValue));
index++;
}
}
addAction(aSubStep, String.Format(CultureInfo.InvariantCulture, "Kernel.NationalValues.ApplicableNationalValues.Value.IntegratedCorrectionFactorKvInt_FreightTrain.Val{0} <- Kernel.NationalValues.KvIntValue_FreightTrain\n{{\n SpeedStep => Default.BaseTypes.Speed.Infinity,\n Value => {1:0.0#}\n}}", index, doubleValue));
}
/* Initializing A_NVP12 */
addAction(aSubStep, String.Format(CultureInfo.InvariantCulture, "Kernel.NationalValues.ApplicableNationalValues.Value.IntegratedCorrectionFactorKvInt_PassengerTrain.A_NVP12 <- {0:0.0}", (double)(aRange.Cells[44, 4] as Range).Value2));
/* Initializing A_NVP23 */
addAction(aSubStep, String.Format(CultureInfo.InvariantCulture, "Kernel.NationalValues.ApplicableNationalValues.Value.IntegratedCorrectionFactorKvInt_PassengerTrain.A_NVP23 <- {0:0.0}", (double)(aRange.Cells[44, 6] as Range).Value2));
/* Initializing Kt_int */
addAction(aSubStep, String.Format(CultureInfo.InvariantCulture, "Kernel.NationalValues.ApplicableNationalValues.Value.IntegratedCorrectionFactorForBrakeBuildUpTime <- {0:0.0}", (double)(aRange.Cells[47, 4] as Range).Value2));
}
private void addAction(SubStep aSubStep, string expression)
{
TestAction anAction = new TestAction();
anAction.Expression = expression;
aSubStep.AddModelElement(anAction);
}
