internal InternalBoundaryProp(PFSSection Section)
{
_pfsHandle = Section;
for (int i = 1; i <= Section.GetSectionsNo(); i++)
{
PFSSection sub = Section.GetSection(i);
switch (sub.Name)
{
case "TIME_SERIES_FILE":
_tIME_SERIES_FILE = new DFS_2D_DATA_FILE(sub);
break;
case "DFS_2D_DATA_FILE":
_dFS_2D_DATA_FILE = new DFS_2D_DATA_FILE(sub);
break;
case "LeakCoef":
_leakCoef = new Topography(sub);
break;
case "Conductance":
_conductance = new Topography(sub);
break;
case "RiverBottomElevation":
_riverBottomElevation = new Bathymetry(sub);
break;
default:
_unMappedSections.Add(sub.Name);
break;
}
}
}
internal Drainage(PFSSection Section)
{
_pfsHandle = Section;
for (int i = 1; i <= Section.GetSectionsNo(); i++)
{
PFSSection sub = Section.GetSection(i);
switch (sub.Name)
{
case "Level":
_level = new Bathymetry(sub);
break;
case "TimeConstant":
_timeConstant = new Topography(sub);
break;
case "DrainCode":
_drainCode = new Topography(sub);
break;
case "DistributedOptionCode":
_distributedOptionCode = new Topography(sub);
break;
default:
_unMappedSections.Add(sub.Name);
break;
}
}
}
internal Drainage(PFSSection Section)
{
_pfsHandle = Section;
for (int i = 1; i <= Section.GetSectionsNo(); i++)
{
PFSSection sub = Section.GetSection(i);
switch (sub.Name)
{
case "Level":
_level = new Bathymetry(sub);
break;
case "TimeConstant":
_timeConstant = new Topography(sub);
break;
case "DrainCode":
_drainCode = new Topography(sub);
break;
case "DistributedOptionCode":
_distributedOptionCode = new Topography(sub);
break;
default:
_unMappedSections.Add(sub.Name);
break;
}
}
}
internal InternalBoundaryProp(PFSSection Section)
{
_pfsHandle = Section;
for (int i = 1; i <= Section.GetSectionsNo(); i++)
{
PFSSection sub = Section.GetSection(i);
switch (sub.Name)
{
case "TIME_SERIES_FILE":
_tIME_SERIES_FILE = new DFS_2D_DATA_FILE(sub);
break;
case "DFS_2D_DATA_FILE":
_dFS_2D_DATA_FILE = new DFS_2D_DATA_FILE(sub);
break;
case "LeakCoef":
_leakCoef = new Topography(sub);
break;
case "Conductance":
_conductance = new Topography(sub);
break;
case "RiverBottomElevation":
_riverBottomElevation = new Bathymetry(sub);
break;
default:
_unMappedSections.Add(sub.Name);
break;
}
}
}
internal Layer_11(PFSSection Section)
{
_pfsHandle = Section;
for (int i = 1; i <= Section.GetSectionsNo(); i++)
{
PFSSection sub = Section.GetSection(i);
switch (sub.Name)
{
case "LowerLevel":
_lowerLevel = new Bathymetry(sub);
break;
case "InitPotHead":
_initPotHead = new Bathymetry(sub);
break;
case "InitialSoilTemperature":
_initialSoilTemperature = new Bathymetry(sub);
break;
case "OuterBoundary":
_outerBoundary = new OuterBoundary(sub);
break;
case "HydrHeadUsedForAirFlow":
_hydrHeadUsedForAirFlow = new Topography(sub);
break;
case "WettingThreshold":
_wettingThreshold = new Topography(sub);
break;
case "InternalBoundary":
_internalBoundary = new InternalBoundary(sub);
break;
case "Initial_Concentration":
_initial_Concentration = new InitialMass(sub);
break;
case "Initial_Immobile_Concentration":
_initial_Immobile_Concentration = new InitialMass(sub);
break;
default:
_unMappedSections.Add(sub.Name);
break;
}
}
}
internal Layer_2(PFSSection Section)
{
_pfsHandle = Section;
for (int i = 1; i <= Section.GetSectionsNo(); i++)
{
PFSSection sub = Section.GetSection(i);
switch (sub.Name)
{
case "LowerLevel":
_lowerLevel = new Bathymetry(sub);
break;
case "InitPotHead":
_initPotHead = new Bathymetry(sub);
break;
case "InitialSoilTemperature":
_initialSoilTemperature = new Bathymetry(sub);
break;
case "OuterBoundary":
_outerBoundary = new OuterBoundary(sub);
break;
case "HydrHeadUsedForAirFlow":
_hydrHeadUsedForAirFlow = new Topography(sub);
break;
case "WettingThreshold":
_wettingThreshold = new Topography(sub);
break;
case "InternalBoundary":
_internalBoundary = new InternalBoundary1(sub);
break;
case "Initial_Concentration":
_initial_Concentration = new InitialMass(sub);
break;
case "Initial_Immobile_Concentration":
_initial_Immobile_Concentration = new InitialMass(sub);
break;
default:
_unMappedSections.Add(sub.Name);
break;
}
}
}
internal UZGroundWaterDepthList(PFSSection Section)
{
_pfsHandle = Section;
for (int i = 1; i <= Section.GetSectionsNo(); i++)
{
PFSSection sub = Section.GetSection(i);
switch (sub.Name)
{
case "UZGroundWaterTable":
_uZGroundWaterTable = new Bathymetry(sub);
break;
case "UZGroundWaterDepth1":
_uZGroundWaterDepth1 = new UZGroundWaterDepth1(sub);
break;
default:
_unMappedSections.Add(sub.Name);
break;
}
}
}
internal River(PFSSection Section)
{
_pfsHandle = Section;
for (int i = 1; i <= Section.GetSectionsNo(); i++)
{
PFSSection sub = Section.GetSection(i);
switch (sub.Name)
{
case "FloodCodes":
_floodCodes = new Topography(sub);
break;
case "Bathymetry":
_bathymetry = new Bathymetry(sub);
break;
default:
_unMappedSections.Add(sub.Name);
break;
}
}
}
internal River(PFSSection Section)
{
_pfsHandle = Section;
for (int i = 1; i <= Section.GetSectionsNo(); i++)
{
PFSSection sub = Section.GetSection(i);
switch (sub.Name)
{
case "FloodCodes":
_floodCodes = new Topography(sub);
break;
case "Bathymetry":
_bathymetry = new Bathymetry(sub);
break;
default:
_unMappedSections.Add(sub.Name);
break;
}
}
}
internal UZGroundWaterDepthList(PFSSection Section)
{
_pfsHandle = Section;
for (int i = 1; i <= Section.GetSectionsNo(); i++)
{
PFSSection sub = Section.GetSection(i);
switch (sub.Name)
{
case "UZGroundWaterTable":
_uZGroundWaterTable = new Bathymetry(sub);
break;
case "UZGroundWaterDepth1":
_uZGroundWaterDepth1 = new UZGroundWaterDepth1(sub);
break;
default:
_unMappedSections.Add(sub.Name);
break;
}
}
}
internal Layer_1(PFSSection Section)
{
_pfsHandle = Section;
for (int i = 1; i <= Section.GetSectionsNo(); i++)
{
PFSSection sub = Section.GetSection(i);
switch (sub.Name)
{
case "LowerLevel":
_lowerLevel = new Bathymetry(sub);
break;
case "GeoUnit":
_geoUnit = new Topography(sub);
break;
case "HorHydrCon":
_horHydrCon = new Topography(sub);
break;
case "VerHydrCon":
_verHydrCon = new Topography(sub);
break;
case "SpecificYield":
_specificYield = new Topography(sub);
break;
case "StorageCoef":
_storageCoef = new Topography(sub);
break;
case "Porosity":
_porosity = new Topography(sub);
break;
case "MatrixPorosity":
_matrixPorosity = new Topography(sub);
break;
case "BulkDensity":
_bulkDensity = new Topography(sub);
break;
case "LHHDispCoeff":
_lHHDispCoeff = new Topography(sub);
break;
case "THHDispCoeff":
_tHHDispCoeff = new Topography(sub);
break;
case "TVHDispCoeff":
_tVHDispCoeff = new Topography(sub);
break;
case "LVVDispCoeff":
_lVVDispCoeff = new Topography(sub);
break;
case "THVDispCoeff":
_tHVDispCoeff = new Topography(sub);
break;
case "HydrHeadUsedForAirFlow":
_hydrHeadUsedForAirFlow = new Topography(sub);
break;
case "HorizontalAnisotropyRatio":
_horizontalAnisotropyRatio = new Topography(sub);
break;
case "VanGenuchtenAlpha":
_vanGenuchtenAlpha = new Topography(sub);
break;
case "VanGenuchtenBeta":
_vanGenuchtenBeta = new Topography(sub);
break;
case "ResidualSaturation":
_residualSaturation = new Topography(sub);
break;
case "BrooksCoreyRelativePermeabilityExponent":
_brooksCoreyRelativePermeabilityExponent = new Topography(sub);
break;
default:
_unMappedSections.Add(sub.Name);
break;
}
}
}
internal Lense_1(PFSSection Section)
{
_pfsHandle = Section;
for (int i = 1; i <= Section.GetSectionsNo(); i++)
{
PFSSection sub = Section.GetSection(i);
switch (sub.Name)
{
case "HorBoundary":
_horBoundary = new Topography(sub);
break;
case "UpperLevel":
_upperLevel = new Bathymetry(sub);
break;
case "LowerLevel":
_lowerLevel = new Bathymetry(sub);
break;
case "GeoUnit":
_geoUnit = new Topography(sub);
break;
case "HorHydrCon":
_horHydrCon = new Topography(sub);
break;
case "VerHydrCon":
_verHydrCon = new Topography(sub);
break;
case "SpecificYield":
_specificYield = new Topography(sub);
break;
case "StorageCoef":
_storageCoef = new Topography(sub);
break;
case "HydrHeadUsedForAirFlow":
_hydrHeadUsedForAirFlow = new Topography(sub);
break;
case "WettingThreshold":
_wettingThreshold = new Topography(sub);
break;
case "HorizontalAnisotropyRatio":
_horizontalAnisotropyRatio = new Topography(sub);
break;
case "VanGenuchtenAlpha":
_vanGenuchtenAlpha = new Topography(sub);
break;
case "VanGenuchtenBeta":
_vanGenuchtenBeta = new Topography(sub);
break;
case "ResidualSaturation":
_residualSaturation = new Topography(sub);
break;
case "BrooksCoreyRelativePermeabilityExponent":
_brooksCoreyRelativePermeabilityExponent = new Topography(sub);
break;
case "Porosity":
_porosity = new Topography(sub);
break;
case "MatrixPorosity":
_matrixPorosity = new Topography(sub);
break;
case "BulkDensity":
_bulkDensity = new Topography(sub);
break;
case "LHHDispCoeff":
_lHHDispCoeff = new Topography(sub);
break;
case "THHDispCoeff":
_tHHDispCoeff = new Topography(sub);
break;
case "TVHDispCoeff":
_tVHDispCoeff = new Topography(sub);
break;
case "LVVDispCoeff":
_lVVDispCoeff = new Topography(sub);
break;
case "THVDispCoeff":
_tHVDispCoeff = new Topography(sub);
break;
default:
_unMappedSections.Add(sub.Name);
break;
}
}
}
internal MIKESHE_FLOWMODEL(PFSSection Section)
{
_pfsHandle = Section;
for (int i = 1; i <= Section.GetSectionsNo(); i++)
{
PFSSection sub = Section.GetSection(i);
switch (sub.Name)
{
case "FlowModelDocVersion":
_flowModelDocVersion = new FlowModelDocVersion(sub);
break;
case "ViewSettings":
_viewSettings = new ViewSettings(sub);
break;
case "Overlays":
_overlays = new Overlays(sub);
break;
case "SimSpec":
_simSpec = new SimSpec(sub);
break;
case "ModelCompWQ":
_modelCompWQ = new ModelCompWQ(sub);
break;
case "Species":
_species = new Species(sub);
break;
case "Processes":
_processes = new Processes(sub);
break;
case "Catchment":
_catchment = new Catchment(sub);
break;
case "Subcatchments":
_subcatchments = new Subcatchments(sub);
break;
case "Topography":
_topography = new Topography(sub);
break;
case "Climate":
_climate = new Climate(sub);
break;
case "LandUse":
_landUse = new LandUse(sub);
break;
case "River":
_river = new River(sub);
break;
case "RiverMF":
_riverMF = new RiverMF(sub);
break;
case "Overland":
_overland = new Overland(sub);
break;
case "OverlandSubcatchment":
_overlandSubcatchment = new Subcatchments(sub);
break;
case "Unsatzone":
_unsatzone = new Unsatzone(sub);
break;
case "SaturatedZone":
_saturatedZone = new SaturatedZone(sub);
break;
case "SaturatedZoneSubCatchment":
_saturatedZoneSubCatchment = new SaturatedZoneSubCatchment(sub);
break;
case "GroundwaterTable":
_groundwaterTable = new Bathymetry(sub);
break;
case "Sources":
_sources = new Sources1(sub);
break;
case "StoringOfResults":
_storingOfResults = new StoringOfResults(sub);
break;
case "OutputModflow":
_outputModflow = new OutputModflow(sub);
break;
case "ExtraParams":
_extraParams = new ExtraParams(sub);
break;
case "ExecuteEngineFlagsPfs":
_executeEngineFlagsPfs = new ExecuteEngineFlagsPfs(sub);
break;
case "Result":
_result = new Result(sub);
break;
case "Overview":
_overview = new STRESSPERIOD_PROPPAGE(sub);
break;
case "GeoScene3D":
_geoScene3D = new GeoScene3D(sub);
break;
default:
_unMappedSections.Add(sub.Name);
break;
}
}
}
internal MIKESHE_FLOWMODEL(PFSSection Section)
{
_pfsHandle = Section;
for (int i = 1; i <= Section.GetSectionsNo(); i++)
{
PFSSection sub = Section.GetSection(i);
switch (sub.Name)
{
case "FlowModelDocVersion":
_flowModelDocVersion = new FlowModelDocVersion(sub);
break;
case "ViewSettings":
_viewSettings = new ViewSettings(sub);
break;
case "Overlays":
_overlays = new Overlays(sub);
break;
case "SimSpec":
_simSpec = new SimSpec(sub);
break;
case "ModelCompWQ":
_modelCompWQ = new ModelCompWQ(sub);
break;
case "Species":
_species = new Species(sub);
break;
case "Processes":
_processes = new Processes(sub);
break;
case "Catchment":
_catchment = new Catchment(sub);
break;
case "Subcatchments":
_subcatchments = new Subcatchments(sub);
break;
case "Topography":
_topography = new Topography(sub);
break;
case "Climate":
_climate = new Climate(sub);
break;
case "LandUse":
_landUse = new LandUse(sub);
break;
case "River":
_river = new River(sub);
break;
case "RiverMF":
_riverMF = new RiverMF(sub);
break;
case "Overland":
_overland = new Overland(sub);
break;
case "OverlandSubcatchment":
_overlandSubcatchment = new Subcatchments(sub);
break;
case "Unsatzone":
_unsatzone = new Unsatzone(sub);
break;
case "SaturatedZone":
_saturatedZone = new SaturatedZone(sub);
break;
case "SaturatedZoneSubCatchment":
_saturatedZoneSubCatchment = new SaturatedZoneSubCatchment(sub);
break;
case "GroundwaterTable":
_groundwaterTable = new Bathymetry(sub);
break;
case "Sources":
_sources = new Sources1(sub);
break;
case "StoringOfResults":
_storingOfResults = new StoringOfResults(sub);
break;
case "OutputModflow":
_outputModflow = new OutputModflow(sub);
break;
case "ExtraParams":
_extraParams = new ExtraParams(sub);
break;
case "ExecuteEngineFlagsPfs":
_executeEngineFlagsPfs = new ExecuteEngineFlagsPfs(sub);
break;
case "Result":
_result = new Result(sub);
break;
case "Overview":
_overview = new STRESSPERIOD_PROPPAGE(sub);
break;
case "GeoScene3D":
_geoScene3D = new GeoScene3D(sub);
break;
default:
_unMappedSections.Add(sub.Name);
break;
}
}
}