public void CalculateDaily_InputNull_ThrowsArgumentNullException()
{
// Call
void Call() => WaternetCalculationService.CalculateDaily(null, new GeneralMacroStabilityInwardsInput());
// Assert
var exception = Assert.Throws <ArgumentNullException>(Call);
Assert.AreEqual("input", exception.ParamName);
}
public void ValidateExtreme_InputNull_ThrowsArgumentNullException()
{
// Call
void Call() => WaternetCalculationService.ValidateExtreme(null, new GeneralMacroStabilityInwardsInput(), RoundedDouble.NaN);
// Assert
var exception = Assert.Throws <ArgumentNullException>(Call);
Assert.AreEqual("input", exception.ParamName);
}
public void ValidateDaily_NoMessagesInValidation_ReturnEmptyCollection()
{
// Setup
using (new MacroStabilityInwardsCalculatorFactoryConfig())
{
// Call
IEnumerable <MacroStabilityInwardsKernelMessage> messages = WaternetCalculationService.ValidateDaily(testCalculation.InputParameters, new GeneralMacroStabilityInwardsInput());
// Assert
CollectionAssert.IsEmpty(messages);
}
}
public void ValidateExtreme_GeneralInputNull_ThrowsArgumentNullException()
{
// Setup
MacroStabilityInwardsInput input = testCalculation.InputParameters;
// Call
void Call() => WaternetCalculationService.ValidateExtreme(input, null, RoundedDouble.NaN);
// Assert
var exception = Assert.Throws <ArgumentNullException>(Call);
Assert.AreEqual("generalInput", exception.ParamName);
}
public void CalculateDaily_CalculationRan_ReturnMacroStabilityInwardsWaternet()
{
// Setup
using (new MacroStabilityInwardsCalculatorFactoryConfig())
{
var calculatorFactory = (TestMacroStabilityInwardsCalculatorFactory)MacroStabilityInwardsCalculatorFactory.Instance;
// Call
MacroStabilityInwardsWaternet output = WaternetCalculationService.CalculateDaily(testCalculation.InputParameters, new GeneralMacroStabilityInwardsInput());
// Assert
CalculatorOutputAssert.AssertWaternet(calculatorFactory.LastCreatedWaternetDailyCalculator.Output, output);
}
}
public void ValidateExtreme_MessagesInValidation_ReturnValidationMessages()
{
// Setup
using (new MacroStabilityInwardsCalculatorFactoryConfig())
{
var calculatorFactory = (TestMacroStabilityInwardsCalculatorFactory)MacroStabilityInwardsCalculatorFactory.Instance;
WaternetCalculatorStub calculator = calculatorFactory.LastCreatedWaternetExtremeCalculator;
calculator.ReturnValidationError = true;
calculator.ReturnValidationWarning = true;
// Call
IEnumerable <MacroStabilityInwardsKernelMessage> messages = WaternetCalculationService.ValidateExtreme(testCalculation.InputParameters, new GeneralMacroStabilityInwardsInput(), RoundedDouble.NaN);
// Assert
CollectionAssert.AreEqual(calculator.Validate(), messages, new MacroStabilityInwardsKernelMessageComparer());
}
}
public void CalculateDaily_ErrorInCalculation_ReturnMacroStabilityInwardsWaternet()
{
// Setup
using (new MacroStabilityInwardsCalculatorFactoryConfig())
{
var calculatorFactory = (TestMacroStabilityInwardsCalculatorFactory)MacroStabilityInwardsCalculatorFactory.Instance;
calculatorFactory.LastCreatedWaternetDailyCalculator.ThrowExceptionOnCalculate = true;
// Call
MacroStabilityInwardsWaternet output = WaternetCalculationService.CalculateDaily(testCalculation.InputParameters, new GeneralMacroStabilityInwardsInput());
// Assert
Assert.IsNotNull(output);
CollectionAssert.IsEmpty(output.PhreaticLines);
CollectionAssert.IsEmpty(output.WaternetLines);
}
}
public void CalculateDaily_WithInput_SetsInputOnCalculator()
{
// Setup
MacroStabilityInwardsInput input = testCalculation.InputParameters;
using (new MacroStabilityInwardsCalculatorFactoryConfig())
{
// Call
WaternetCalculationService.CalculateDaily(input, new GeneralMacroStabilityInwardsInput());
// Assert
var factory = (TestMacroStabilityInwardsCalculatorFactory)MacroStabilityInwardsCalculatorFactory.Instance;
WaternetCalculatorInput actualInput = factory.LastCreatedWaternetDailyCalculator.Input;
CalculatorInputAssert.AssertDailyInput(input, actualInput);
}
}
public void ValidateDaily_ErrorInValidation_ThrowsWaternetCalculationException()
{
// Setup
using (new MacroStabilityInwardsCalculatorFactoryConfig())
{
var calculatorFactory = (TestMacroStabilityInwardsCalculatorFactory)MacroStabilityInwardsCalculatorFactory.Instance;
calculatorFactory.LastCreatedWaternetDailyCalculator.ThrowExceptionOnValidate = true;
// Call
void Call() => WaternetCalculationService.ValidateDaily(testCalculation.InputParameters, new GeneralMacroStabilityInwardsInput());
// Assert
var exception = Assert.Throws <WaternetCalculationException>(Call);
Assert.IsInstanceOf <WaternetCalculatorException>(exception.InnerException);
Assert.AreEqual(exception.InnerException.Message, exception.Message);
}
}
public void ValidateExtreme_WithInput_SetsInputOnCalculator()
{
// Setup
RoundedDouble assessmentLevel = new Random(21).NextRoundedDouble();
MacroStabilityInwardsInput input = testCalculation.InputParameters;
using (new MacroStabilityInwardsCalculatorFactoryConfig())
{
// Call
WaternetCalculationService.ValidateExtreme(input, new GeneralMacroStabilityInwardsInput(), assessmentLevel);
// Assert
var factory = (TestMacroStabilityInwardsCalculatorFactory)MacroStabilityInwardsCalculatorFactory.Instance;
WaternetCalculatorInput actualInput = factory.LastCreatedWaternetExtremeCalculator.Input;
CalculatorInputAssert.AssertExtremeInput(input, actualInput, assessmentLevel);
}
}
/// <summary>
/// Gets the calculated Waternet for daily circumstances.
/// </summary>
/// <param name="input">The input to calculate the Waternet for.</param>
/// <param name="generalInput">General calculation parameters that are the same across all calculations.</param>
/// <exception cref="ArgumentNullException">Thrown when any parameter is <c>null</c>.</exception>
/// <returns>Returns the corresponding derived Waternet value.</returns>
public static MacroStabilityInwardsWaternet GetWaternetDaily(MacroStabilityInwardsInput input,
GeneralMacroStabilityInwardsInput generalInput)
{
if (input == null)
{
throw new ArgumentNullException(nameof(input));
}
if (generalInput == null)
{
throw new ArgumentNullException(nameof(generalInput));
}
return(input.SoilProfileUnderSurfaceLine != null
? WaternetCalculationService.CalculateDaily(input, generalInput)
: new MacroStabilityInwardsWaternet(new MacroStabilityInwardsPhreaticLine[0],
new MacroStabilityInwardsWaternetLine[0]));
}
/// <summary>
/// Performs validation over the values on the given <paramref name="calculation"/>. Error and status information is logged during
/// the execution of the operation.
/// </summary>
/// <param name="calculation">The <see cref="MacroStabilityInwardsCalculation"/> for which to validate the values.</param>
/// <param name="generalInput">General calculation parameters that are the same across all calculations.</param>
/// <param name="normativeAssessmentLevel">The normative assessment level to use in case the manual assessment level is not applicable.</param>
/// <returns><c>false</c> if <paramref name="calculation"/> contains validation errors; <c>true</c> otherwise.</returns>
/// <exception cref="ArgumentNullException">Thrown when any parameter is <c>null</c>.</exception>
public static bool Validate(MacroStabilityInwardsCalculation calculation, GeneralMacroStabilityInwardsInput generalInput, RoundedDouble normativeAssessmentLevel)
{
if (calculation == null)
{
throw new ArgumentNullException(nameof(calculation));
}
if (generalInput == null)
{
throw new ArgumentNullException(nameof(generalInput));
}
CalculationServiceHelper.LogValidationBegin();
string[] inputValidationResults = MacroStabilityInwardsInputValidator.Validate(calculation.InputParameters, normativeAssessmentLevel).ToArray();
if (inputValidationResults.Length > 0)
{
CalculationServiceHelper.LogMessagesAsError(inputValidationResults);
CalculationServiceHelper.LogValidationEnd();
return(false);
}
IEnumerable <MacroStabilityInwardsKernelMessage> waternetExtremeKernelMessages;
IEnumerable <MacroStabilityInwardsKernelMessage> waternetDailyKernelMessages;
try
{
waternetExtremeKernelMessages = ValidateWaternet(() => WaternetCalculationService.ValidateExtreme(
calculation.InputParameters, generalInput, GetEffectiveAssessmentLevel(calculation.InputParameters, normativeAssessmentLevel)),
Resources.MacroStabilityInwardsCalculationService_Validate_Waternet_extreme_validation_started);
waternetDailyKernelMessages = ValidateWaternet(() => WaternetCalculationService.ValidateDaily(calculation.InputParameters, generalInput),
Resources.MacroStabilityInwardsCalculationService_Validate_Waternet_daily_validation_started);
}
catch (WaternetCalculationException e)
{
HandleExceptionOnValidation(e);
return(false);
}
IEnumerable <MacroStabilityInwardsKernelMessage> kernelMessages = Enumerable.Empty <MacroStabilityInwardsKernelMessage>();
if (!waternetExtremeKernelMessages.Any() && !waternetDailyKernelMessages.Any())
{
IUpliftVanCalculator calculator = GetCalculator(calculation, generalInput, normativeAssessmentLevel);
try
{
kernelMessages = calculator.Validate().ToArray();
}
catch (UpliftVanCalculatorException e)
{
HandleExceptionOnValidation(e);
return(false);
}
LogKernelMessages(kernelMessages);
}
CalculationServiceHelper.LogValidationEnd();
return(kernelMessages.Concat(waternetDailyKernelMessages)
.Concat(waternetExtremeKernelMessages)
.All(r => r.Type != MacroStabilityInwardsKernelMessageType.Error));
}
