// 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.Linq;
using Application.Ringtoets.Storage.DbContext;
using Ringtoets.Common.Data.AssessmentSection;
using Ringtoets.Common.Data.FailureMechanism;
using Ringtoets.HydraRing.Data;
using Ringtoets.Integration.Data;
using Ringtoets.Integration.Data.StandAlone;
using Ringtoets.Piping.Primitives;
namespace Application.Ringtoets.Storage.Read
{
///
/// This class defines extension methods for read operations for an based on the
/// .
///
internal static class AssessmentSectionEntityReadExtensions
{
///
/// Read the and use the information to construct a .
///
/// The to create for.
/// The object keeping track of read operations.
/// A new .
/// Thrown when is null.
internal static AssessmentSection Read(this AssessmentSectionEntity entity, ReadConversionCollector collector)
{
if (collector == null)
{
throw new ArgumentNullException("collector");
}
var assessmentSection = new AssessmentSection((AssessmentSectionComposition) entity.Composition)
{
StorageId = entity.AssessmentSectionEntityId,
Name = entity.Name
};
entity.ReadPipingFailureMechanism(assessmentSection, collector);
entity.ReadGrassCoverErosionInwardsFailureMechanism(assessmentSection);
entity.ReadHydraulicDatabase(assessmentSection);
entity.ReadReferenceLine(assessmentSection);
entity.ReadStandAloneFailureMechanisms(assessmentSection);
return assessmentSection;
}
private static void ReadReferenceLine(this AssessmentSectionEntity entity, IAssessmentSection assessmentSection)
{
if (entity.ReferenceLinePointEntities.Any())
{
assessmentSection.ReferenceLine = new ReferenceLine();
assessmentSection.ReferenceLine.SetGeometry(entity.ReferenceLinePointEntities.OrderBy(rlpe => rlpe.Order).Select(rlpe => rlpe.Read()));
}
}
private static void ReadHydraulicDatabase(this AssessmentSectionEntity entity, IAssessmentSection assessmentSection)
{
if (entity.HydraulicDatabaseLocation != null)
{
assessmentSection.HydraulicBoundaryDatabase = new HydraulicBoundaryDatabase
{
FilePath = entity.HydraulicDatabaseLocation,
Version = entity.HydraulicDatabaseVersion
};
foreach (var hydraulicLocationEntity in entity.HydraulicLocationEntities)
{
assessmentSection.HydraulicBoundaryDatabase.Locations.Add(hydraulicLocationEntity.Read());
}
}
}
private static void ReadPipingFailureMechanism(this AssessmentSectionEntity entity, AssessmentSection assessmentSection, ReadConversionCollector collector)
{
var pipingFailureMechanismEntity = entity.FailureMechanismEntities.SingleOrDefault(fme => fme.FailureMechanismType == (int) FailureMechanismType.Piping);
if (pipingFailureMechanismEntity != null)
{
var failureMechanism = pipingFailureMechanismEntity.ReadAsPipingFailureMechanism(collector);
var pipingFailureMechanism = assessmentSection.PipingFailureMechanism;
pipingFailureMechanism.StochasticSoilModels.AddRange(failureMechanism.StochasticSoilModels);
pipingFailureMechanism.IsRelevant = failureMechanism.IsRelevant;
pipingFailureMechanism.StorageId = failureMechanism.StorageId;
foreach (var failureMechanismSection in failureMechanism.Sections)
{
pipingFailureMechanism.AddSection(failureMechanismSection);
}
foreach (RingtoetsPipingSurfaceLine surfaceLine in failureMechanism.SurfaceLines)
{
pipingFailureMechanism.SurfaceLines.Add(surfaceLine);
}
}
}
private static void ReadGrassCoverErosionInwardsFailureMechanism(this AssessmentSectionEntity entity, AssessmentSection assessmentSection)
{
var grassCoverErosionInwardsFailureMechanismEntity = entity.FailureMechanismEntities.SingleOrDefault(fme => fme.FailureMechanismType == (int) FailureMechanismType.GrassRevetmentTopErosionAndInwards);
if (grassCoverErosionInwardsFailureMechanismEntity != null)
{
var failureMechanism = grassCoverErosionInwardsFailureMechanismEntity.ReadAsGrassCoverErosionInwardsFailureMechanism();
var grassCoverErosionInwards = assessmentSection.GrassCoverErosionInwards;
grassCoverErosionInwards.IsRelevant = failureMechanism.IsRelevant;
grassCoverErosionInwards.StorageId = failureMechanism.StorageId;
foreach (var failureMechanismSection in failureMechanism.Sections)
{
grassCoverErosionInwards.AddSection(failureMechanismSection);
}
}
}
private static void ReadStandAloneFailureMechanisms(this AssessmentSectionEntity entity, AssessmentSection assessmentSection)
{
entity.ReadStandAloneFailureMechanism(FailureMechanismType.MacrostabilityInwards, assessmentSection.MacrostabilityInwards);
entity.ReadStandAloneFailureMechanism(FailureMechanismType.MacrostabilityOutwards, assessmentSection.MacrostabilityOutwards);
entity.ReadStandAloneFailureMechanism(FailureMechanismType.Microstability, assessmentSection.Microstability);
entity.ReadStandAloneFailureMechanism(FailureMechanismType.StabilityStoneRevetment, assessmentSection.StabilityStoneCover);
entity.ReadStandAloneFailureMechanism(FailureMechanismType.WaveImpactOnAsphaltRevetment, assessmentSection.WaveImpactAsphaltCover);
entity.ReadStandAloneFailureMechanism(FailureMechanismType.WaterOverpressureAsphaltRevetment, assessmentSection.WaterPressureAsphaltCover);
entity.ReadStandAloneFailureMechanism(FailureMechanismType.GrassRevetmentErosionOutwards, assessmentSection.GrassCoverErosionOutwards);
entity.ReadStandAloneFailureMechanism(FailureMechanismType.GrassRevetmentSlidingOutwards, assessmentSection.GrassCoverSlipOffOutwards);
entity.ReadStandAloneFailureMechanism(FailureMechanismType.GrassRevetmentSlidingInwards, assessmentSection.GrassCoverSlipOffInwards);
entity.ReadStandAloneFailureMechanism(FailureMechanismType.StructureHeight, assessmentSection.HeightStructures);
entity.ReadStandAloneFailureMechanism(FailureMechanismType.ReliabilityClosingOfStructure, assessmentSection.ClosingStructure);
entity.ReadStandAloneFailureMechanism(FailureMechanismType.PipingAtStructure, assessmentSection.PipingStructure);
entity.ReadStandAloneFailureMechanism(FailureMechanismType.StrengthAndStabilityPointConstruction, assessmentSection.StrengthStabilityPointConstruction);
entity.ReadStandAloneFailureMechanism(FailureMechanismType.StrengthAndStabilityParallelConstruction, assessmentSection.StrengthStabilityLengthwiseConstruction);
entity.ReadStandAloneFailureMechanism(FailureMechanismType.DuneErosion, assessmentSection.DuneErosion);
entity.ReadStandAloneFailureMechanism(FailureMechanismType.TechnicalInnovations, assessmentSection.TechnicalInnovation);
}
private static void ReadStandAloneFailureMechanism(this AssessmentSectionEntity entity, FailureMechanismType failureMechanismType, IFailureMechanism standAloneFailureMechanism)
{
var failureMechanismEntity = entity.FailureMechanismEntities.SingleOrDefault(fme => fme.FailureMechanismType == (int) failureMechanismType);
if (failureMechanismEntity != null)
{
var failureMechanism = failureMechanismEntity.ReadAsMacroStabilityInwardsFailureMechanism();
standAloneFailureMechanism.StorageId = failureMechanism.StorageId;
standAloneFailureMechanism.IsRelevant = failureMechanism.IsRelevant;
foreach (var failureMechanismSection in failureMechanism.Sections)
{
standAloneFailureMechanism.AddSection(failureMechanismSection);
}
}
}
}
}