// Copyright (C) Stichting Deltares 2018. All rights reserved.
//
// This file is part of the Dam Engine.
//
// The Dam Engine is free software: you can redistribute it and/or modify
// it under the terms of the GNU Affero 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 Affero General Public License for more details.
//
// You should have received a copy of the GNU Affero 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 System.Text;
using Deltares.DamEngine.Calculators.KernelWrappers.Common;
using Deltares.DamEngine.Calculators.KernelWrappers.Interfaces;
using Deltares.DamEngine.Calculators.Properties;
using Deltares.DamEngine.Data.General;
using Deltares.DamEngine.Data.General.Results;
using Deltares.DamEngine.Data.Standard.Logging;
namespace Deltares.DamEngine.Calculators.DikesDesign
{
///
/// The Dam Engine design calculator
///
public class DesignCalculator
{
///
/// Performs the design calculation
///
/// The dam project data.
///
public List Execute(DamProjectData damProjectData)
{
IKernelWrapper kernelWrapper = KernelWrapperHelper.CreateKernelWrapper(damProjectData.DamProjectCalculationSpecification.CurrentSpecification);
if (kernelWrapper == null)
{
throw new NotImplementedException(Resources.DesignCalculatorKernelNotImplemented);
}
damProjectData.DesignCalculations = new List();
var calculationMessages = new List();
for (int locationIndex = 0; locationIndex < damProjectData.Dike.Locations.Count; locationIndex++)
{
var location = damProjectData.Dike.Locations[locationIndex];
for (int subSoilScenarioIndex = 0; subSoilScenarioIndex < location.Segment.SoilProfileProbabilities.Count; subSoilScenarioIndex++)
{
var soiProfileProbability = location.Segment.SoilProfileProbabilities[subSoilScenarioIndex];
for (int designScenarioIndex = 0; designScenarioIndex < location.Scenarios.Count; designScenarioIndex++)
{
// Prepare input
var damKernelInput = new DamKernelInput();
damKernelInput.WorkingDir = damProjectData.ProjectWorkingPath;
damKernelInput.Location = location;
damKernelInput.SubSoilScenario = soiProfileProbability;
damKernelInput.DesignScenario = location.Scenarios[designScenarioIndex];
damKernelInput.DamFailureMechanismeCalculationSpecification = damProjectData.DamProjectCalculationSpecification.CurrentSpecification;
AnalysisType analysisType = DamProjectCalculationSpecification.SelectedAnalysisType;
IKernelDataInput kernelDataInput;
IKernelDataOutput kernelDataOutput;
PrepareResult prepareResult = kernelWrapper.Prepare(damKernelInput, 0, out kernelDataInput, out kernelDataOutput);
// Sometimes the kernelDataInput is not created (p.e when soilprofileprobablility is meant for
// stability where Piping calc is wanted). In that case, do nothing but just skip.
if (prepareResult == PrepareResult.Successful)
{
switch (analysisType)
{
case AnalysisType.AdaptGeometry:
// PerformDesignCalculation(kernelWrapper, kernelDataInput, kernelDataOutput,
// damKernelInput, calculationMessages, damProjectData.DesignCalculations);
// break;
case AnalysisType.NoAdaption:
PerformSingleCalculation(kernelWrapper, kernelDataInput, kernelDataOutput,
damKernelInput, calculationMessages, damProjectData.DesignCalculations);
break;
}
}
else
{
if (prepareResult == PrepareResult.NotRelevant)
{
calculationMessages.Add(new LogMessage(LogMessageType.Info, null,
string.Format(Resources.DesignCalculatorIrrelevant,
location.Name,
soiProfileProbability.ToString(),
damKernelInput.DesignScenario.LocationScenarioID)));
}
if (prepareResult == PrepareResult.Failed)
{
calculationMessages.Add(new LogMessage(LogMessageType.Error, null,
string.Format(Resources.DesignCalculatorPrepareError,
location.Name,
soiProfileProbability.ToString(),
damKernelInput.DesignScenario.LocationScenarioID)));
}
}
}
}
}
return calculationMessages;
}
private static void PerformSingleCalculation(IKernelWrapper kernelWrapper, IKernelDataInput kernelDataInput, IKernelDataOutput kernelDataOutput, DamKernelInput damKernelInput,
List calculationMessages, List designCalculations)
{
// Perform validation
List locationCalculationMessages = new List();
List validationMessages;
int errorCount = kernelWrapper.Validate(kernelDataInput, kernelDataOutput, out validationMessages);
if (errorCount > 0)
{
locationCalculationMessages.Add(new LogMessage(LogMessageType.Error, null,
string.Format(Resources.DesignCalculatorValidationFailed,
damKernelInput.Location.Name,
damKernelInput.SubSoilScenario.ToString(),
damKernelInput.DesignScenario.LocationScenarioID)));
locationCalculationMessages.AddRange(validationMessages);
}
else
{
// Perform calculation
kernelWrapper.Execute(kernelDataInput, kernelDataOutput, out locationCalculationMessages);
}
// Process output
calculationMessages.AddRange(locationCalculationMessages);
List designResults;
StringBuilder sb = new StringBuilder();
foreach (var message in locationCalculationMessages)
{
sb.Append(message.Message + Environment.NewLine);
}
string resultMessage = sb.ToString();
kernelWrapper.PostProcess(damKernelInput, kernelDataOutput, resultMessage, out designResults);
foreach (var designResult in designResults)
{
designCalculations.Add(designResult);
}
}
private static void PerformDesignCalculation(IKernelWrapper kernelWrapper, IKernelDataInput kernelDataInput, IKernelDataOutput kernelDataOutput, DamKernelInput damKernelInput,
List calculationMessages, List designCalculations)
{
}
}
}