private void Initialize(string PreProcessed3dSzFile, string PreProcessed2dSzFile)
{
//Open File with 3D data
if (System.IO.File.Exists(PreProcessed3dSzFile))
{
_PreProcessed_3DSZ = new DFS3(PreProcessed3dSzFile);
//Generate 3D properties
for (int i = 0; i < _PreProcessed_3DSZ.Items.Length; i++)
{
switch (_PreProcessed_3DSZ.Items[i].Name)
{
case "Horizontal conductivity in the saturated zone":
_horizontalConductivity = new DataSetsFromDFS3(_PreProcessed_3DSZ, i + 1);
break;
case "Vertical conductivity in the saturated zone":
_verticalConductivity = new DataSetsFromDFS3(_PreProcessed_3DSZ, i + 1);
break;
case "Transmissivity in the saturated zone":
_transmissivity = new DataSetsFromDFS3(_PreProcessed_3DSZ, i + 1);
break;
case "Specific yield in the saturated zone":
_specificYield = new DataSetsFromDFS3(_PreProcessed_3DSZ, i + 1);
break;
case "Specific storage in the saturated zone":
_specificStorage = new DataSetsFromDFS3(_PreProcessed_3DSZ, i + 1);
break;
case "Initial potential heads in the saturated zone":
_initialHeads = new DataSetsFromDFS3(_PreProcessed_3DSZ, i + 1);
break;
default: //Unknown item
break;
}
}
}
//Open File with 2D data
_prePro2D = new DFS2(PreProcessed2dSzFile);
//Generate 2D properties by looping the items
for (int i = 0; i < _prePro2D.Items.Length; i++)
{
switch (_prePro2D.Items[i].Name)
{
case "Net Rainfall Fraction":
_netRainFallFraction = new DataSetsFromDFS2(_prePro2D, i + 1);
break;
case "Infiltration Fraction":
_infiltrationFraction = new DataSetsFromDFS2(_prePro2D, i + 1);
break;
default: //Unknown item
break;
}
}
//Now construct the grid from the open files
_grid = new MikeSheGridInfo(_PreProcessed_3DSZ, _prePro2D);
}
private void Initialize(string PreProcessed3dSzFile, string PreProcessed2dSzFile)
{
//Open File with 3D data
_PreProcessed_3DSZ = new DFS3(PreProcessed3dSzFile);
//Generate 3D properties
for (int i = 0; i < _PreProcessed_3DSZ.ItemNames.Length; i++)
{
switch (_PreProcessed_3DSZ.ItemNames[i])
{
case "Horizontal conductivity in the saturated zone":
_horizontalConductivity = new DataSetsFromDFS3(_PreProcessed_3DSZ, i+1);
break;
case "Vertical conductivity in the saturated zone":
_verticalConductivity = new DataSetsFromDFS3(_PreProcessed_3DSZ, i+1);
break;
case "Transmissivity in the saturated zone":
_transmissivity = new DataSetsFromDFS3(_PreProcessed_3DSZ, i+1);
break;
case "Specific yield in the saturated zone":
_specificYield = new DataSetsFromDFS3(_PreProcessed_3DSZ, i+1);
break;
case "Specific storage in the saturated zone":
_specificStorage = new DataSetsFromDFS3(_PreProcessed_3DSZ, i+1);
break;
case "Initial potential heads in the saturated zone":
_initialHeads = new DataSetsFromDFS3(_PreProcessed_3DSZ, i+1);
break;
default: //Unknown item
break;
}
}
//Open File with 2D data
_prePro2D = new DFS2(PreProcessed2dSzFile);
//Generate 2D properties by looping the items
for (int i = 0; i < _prePro2D.ItemNames.Length; i++)
{
switch (_prePro2D.ItemNames[i])
{
case "Net Rainfall Fraction":
_netRainFallFraction = new DataSetsFromDFS2(_prePro2D, i +1);
break;
case "Infiltration Fraction":
_infiltrationFraction = new DataSetsFromDFS2(_prePro2D, i +1);
break;
default: //Unknown item
break;
}
}
//Now construct the grid from the open files
_grid = new MikeSheGridInfo(_PreProcessed_3DSZ, _prePro2D);
}
private void Initialize(DFS3 PreProcessed3D, DFS2 Preprocessed2D)
{
//Generate 3D properties
if (PreProcessed3D != null)
{
for (int i = 0; i < PreProcessed3D.Items.Length; i++)
{
switch (PreProcessed3D.Items[i].Name)
{
case "Boundary conditions for the saturated zone":
_boundaryConditionsForTheSaturatedZone = new DataSetsFromDFS3(PreProcessed3D, i + 1);
break;
case "Lower level of computational layers in the saturated zone":
_lowerLevelOfComputationalLayers = new DataSetsFromDFS3(PreProcessed3D, i + 1);
break;
case "Thickness of computational layers in the saturated zone":
_thicknessOfComputationalLayers = new DataSetsFromDFS3(PreProcessed3D, i + 1);
break;
default: //Unknown item
break;
}
}
}
//Generate 2D properties by looping the items
for (int i = 0; i < Preprocessed2D.Items.Length; i++)
{
switch (Preprocessed2D.Items[i].Name)
{
case "Model domain and grid":
_modelDomainAndGrid = new DataSetsFromDFS2(Preprocessed2D, i + 1);
break;
case "Surface topography":
_surfaceTopography = new DataSetsFromDFS2(Preprocessed2D, i + 1);
break;
default: //Unknown item
break;
}
}
_deleteValue = Preprocessed2D.DeleteValue;
GridSize = Preprocessed2D.GridSize;
NumberOfRows = Preprocessed2D.NumberOfRows;;
NumberOfColumns = Preprocessed2D.NumberOfColumns;
if (PreProcessed3D == null)
{
NumberOfLayers = 1;
}
else
{
NumberOfLayers = PreProcessed3D.NumberOfLayers;
}
//For MikeShe the origin is lower left whereas it is center of lower left for DFS
XOrigin = Preprocessed2D.XOrigin;
YOrigin = Preprocessed2D.YOrigin;
}
