internal Initial_Conditions(PFSSection Section)
{
_pfsHandle = Section;
for (int i = 1; i <= Section.GetSectionsNo(); i++)
{
PFSSection sub = Section.GetSection(i);
switch (sub.Name)
{
case "Initial_Matrix_Potential":
_initial_Matrix_Potential = new Initial_Matrix_Potential(sub);
break;
case "Initial_Water_Content":
_initial_Water_Content = new Initial_Matrix_Potential(sub);
break;
case "Initial_Soil_Temperature":
_initial_Soil_Temperature = new Initial_Matrix_Potential(sub);
break;
case "Initial_Concentration":
_initial_Concentration = new InitialMass(sub);
break;
default:
_unMappedSections.Add(sub.Name);
break;
}
}
}
internal Unsatzone(PFSSection Section)
{
_pfsHandle = Section;
for (int i = 1; i <= Section.GetSectionsNo(); i++)
{
PFSSection sub = Section.GetSection(i);
switch (sub.Name)
{
case "UZSoilProfiles":
_uZSoilProfiles = new UZSoilProfiles(sub);
break;
case "TwoLayerUZSoilProperties":
_twoLayerUZSoilProperties = new TwoLayerUZSoilProperties(sub);
break;
case "ETSurfaceDepth":
_eTSurfaceDepth = new Topography(sub);
break;
case "Macropore_Transfer_Coeff":
_macropore_Transfer_Coeff = new InitialMass(sub);
break;
case "Decay_Processes":
_decay_Processes = new InitialMass(sub);
break;
case "Sorption_Processes":
_sorption_Processes = new InitialMass(sub);
break;
case "UZGroundWaterDepthList":
_uZGroundWaterDepthList = new UZGroundWaterDepthList(sub);
break;
case "Initial_Conditions":
_initial_Conditions = new Initial_Conditions(sub);
break;
case "SpecifiedClassification":
_specifiedClassification = new Topography(sub);
break;
case "PartialAutomatic":
_partialAutomatic = new Topography(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 Overland(PFSSection Section)
{
_pfsHandle = Section;
for (int i = 1; i <= Section.GetSectionsNo(); i++)
{
PFSSection sub = Section.GetSection(i);
switch (sub.Name)
{
case "Manning":
_manning = new Topography(sub);
break;
case "DetentionStorage":
_detentionStorage = new Topography(sub);
break;
case "InitialWaterDepth":
_initialWaterDepth = new Topography(sub);
break;
case "LeakageCoeff":
_leakageCoeff = new Topography(sub);
break;
case "SeparatedFlowAreas":
_separatedFlowAreas = new Topography(sub);
break;
case "InitialMass":
_initialMass = new InitialMass(sub);
break;
case "Decay_Processes":
_decay_Processes = new InitialMass(sub);
break;
default:
if (sub.Name.Substring(0,6).Equals("Disper"))
{
_dispersionCoeff_Xs.Add(new Topography(sub));
break;
}
_unMappedSections.Add(sub.Name);
break;
}
}
}
