// Copyright (C) Stichting Deltares 2016. All rights reserved.
//
// This file is part of Ringtoets.
//
// Ringtoets is free software: you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
//
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License for more details.
//
// You should have received a copy of the GNU General Public License
// along with this program. If not, see .
//
// All names, logos, and references to "Deltares" are registered trademarks of
// Stichting Deltares and remain full property of Stichting Deltares at all times.
// All rights reserved.
using System;
using System.Collections.Generic;
using Ringtoets.Common.Data.Calculation;
using Ringtoets.Common.Data.DikeProfiles;
using Ringtoets.Common.Data.Structures;
using Ringtoets.Common.IO.Configurations;
using Ringtoets.Common.IO.Configurations.Helpers;
using Ringtoets.Common.IO.Exporters;
using Ringtoets.StabilityPointStructures.Data;
using Ringtoets.StabilityPointStructures.IO.Writers;
namespace Ringtoets.StabilityPointStructures.IO.Exporters
{
///
/// Exports a stability point structures calculation configuration and stores it as an XML file.
///
public class StabilityPointStructuresCalculationConfigurationExporter : SchemaCalculationConfigurationExporter<
StabilityPointStructuresCalculationConfigurationWriter,
StructuresCalculation,
StabilityPointStructuresCalculationConfiguration>
{
///
/// Creates a new instance of .
///
/// The calculation configuration to export.
/// The path of the XML file to export to.
/// Thrown when is null.
/// Thrown when is invalid.
public StabilityPointStructuresCalculationConfigurationExporter(IEnumerable calculations, string filePath)
: base(calculations, filePath) { }
protected override StabilityPointStructuresCalculationConfigurationWriter CreateWriter(string filePath)
{
return new StabilityPointStructuresCalculationConfigurationWriter(filePath);
}
protected override StabilityPointStructuresCalculationConfiguration ToConfiguration(StructuresCalculation calculation)
{
var calculationConfiguration = new StabilityPointStructuresCalculationConfiguration(calculation.Name);
StabilityPointStructuresInput input = calculation.InputParameters;
calculationConfiguration.DrainCoefficient = input.DrainCoefficient.ToStochastConfigurationWithMean();
calculationConfiguration.FactorStormDurationOpenStructure = input.FactorStormDurationOpenStructure;
calculationConfiguration.FailureProbabilityStructureWithErosion = input.FailureProbabilityStructureWithErosion;
calculationConfiguration.HydraulicBoundaryLocationName = input.HydraulicBoundaryLocation?.Name;
calculationConfiguration.ModelFactorSuperCriticalFlow = input.ModelFactorSuperCriticalFlow.ToStochastConfigurationWithMean();
calculationConfiguration.VolumicWeightWater = input.VolumicWeightWater;
calculationConfiguration.StormDuration = input.StormDuration.ToStochastConfigurationWithMean();
SetConfigurationStructureDependendParameters(calculationConfiguration, input);
SetConfigurationForeshoreProfileDependendParameters(calculationConfiguration, input);
return calculationConfiguration;
}
private static void SetConfigurationStructureDependendParameters(StabilityPointStructuresCalculationConfiguration calculationConfiguration,
StabilityPointStructuresInput input)
{
if (input.Structure == null)
{
return;
}
var inflowModelTypeConverter = new ConfigurationStabilityPointStructuresInflowModelTypeConverter();
calculationConfiguration.AllowedLevelIncreaseStorage = input.AllowedLevelIncreaseStorage.ToStochastConfiguration();
calculationConfiguration.AreaFlowApertures = input.AreaFlowApertures.ToStochastConfiguration();
calculationConfiguration.BankWidth = input.BankWidth.ToStochastConfigurationWithMean();
calculationConfiguration.ConstructiveStrengthLinearLoadModel = input.ConstructiveStrengthLinearLoadModel.ToStochastConfiguration();
calculationConfiguration.ConstructiveStrengthQuadraticLoadModel = input.ConstructiveStrengthQuadraticLoadModel.ToStochastConfiguration();
calculationConfiguration.CriticalOvertoppingDischarge = input.CriticalOvertoppingDischarge.ToStochastConfiguration();
calculationConfiguration.EvaluationLevel = input.EvaluationLevel;
calculationConfiguration.FailureCollisionEnergy = input.FailureCollisionEnergy.ToStochastConfiguration();
calculationConfiguration.FailureProbabilityRepairClosure = input.FailureProbabilityRepairClosure;
calculationConfiguration.FlowVelocityStructureClosable = input.FlowVelocityStructureClosable.ToStochastConfigurationWithMean();
calculationConfiguration.FlowWidthAtBottomProtection = input.FlowWidthAtBottomProtection.ToStochastConfiguration();
if (Enum.IsDefined(typeof(StabilityPointStructureInflowModelType), input.InflowModelType))
{
calculationConfiguration.InflowModelType = (ConfigurationStabilityPointStructuresInflowModelType?) inflowModelTypeConverter.ConvertFrom(input.InflowModelType);
}
calculationConfiguration.InsideWaterLevel = input.InsideWaterLevel.ToStochastConfiguration();
calculationConfiguration.InsideWaterLevelFailureConstruction = input.InsideWaterLevelFailureConstruction.ToStochastConfiguration();
calculationConfiguration.LevelCrestStructure = input.LevelCrestStructure.ToStochastConfiguration();
calculationConfiguration.LevellingCount = input.LevellingCount;
SetConfigurationLoadSchematizationType(calculationConfiguration, input);
calculationConfiguration.ProbabilityCollisionSecondaryStructure = input.ProbabilityCollisionSecondaryStructure;
calculationConfiguration.ShipMass = input.ShipMass.ToStochastConfiguration();
calculationConfiguration.ShipVelocity = input.ShipVelocity.ToStochastConfiguration();
calculationConfiguration.StabilityLinearLoadModel = input.StabilityLinearLoadModel.ToStochastConfiguration();
calculationConfiguration.StabilityQuadraticLoadModel = input.StabilityQuadraticLoadModel.ToStochastConfiguration();
calculationConfiguration.StorageStructureArea = input.StorageStructureArea.ToStochastConfiguration();
calculationConfiguration.StructureName = input.Structure.Name;
calculationConfiguration.StructureNormalOrientation = input.StructureNormalOrientation;
calculationConfiguration.ThresholdHeightOpenWeir = input.ThresholdHeightOpenWeir.ToStochastConfiguration();
calculationConfiguration.VerticalDistance = input.VerticalDistance;
calculationConfiguration.WidthFlowApertures = input.WidthFlowApertures.ToStochastConfiguration();
}
private static void SetConfigurationLoadSchematizationType(StabilityPointStructuresCalculationConfiguration calculationConfiguration, StabilityPointStructuresInput input)
{
if (!Enum.IsDefined(typeof(LoadSchematizationType), input.LoadSchematizationType))
{
return;
}
var loadSchematizationTypeConverter = new ConfigurationStabilityPointStructuresLoadSchematizationTypeConverter();
calculationConfiguration.LoadSchematizationType = (ConfigurationStabilityPointStructuresLoadSchematizationType?) loadSchematizationTypeConverter.ConvertFrom(input.LoadSchematizationType);
}
private static void SetConfigurationForeshoreProfileDependendParameters(StructuresCalculationConfiguration calculationConfiguration,
StabilityPointStructuresInput input)
{
if (input.ForeshoreProfile == null)
{
return;
}
var breakWaterTypeConverter = new ConfigurationBreakWaterTypeConverter();
calculationConfiguration.ForeshoreProfileName = input.ForeshoreProfile?.Name;
calculationConfiguration.WaveReduction = new WaveReductionConfiguration
{
UseForeshoreProfile = input.UseForeshore,
UseBreakWater = input.UseBreakWater,
BreakWaterHeight = input.BreakWater.Height
};
if (Enum.IsDefined(typeof(BreakWaterType), input.BreakWater.Type))
{
calculationConfiguration.WaveReduction.BreakWaterType = (ConfigurationBreakWaterType?) breakWaterTypeConverter.ConvertFrom(input.BreakWater.Type);
}
}
}
}