/// <summary>
/// Attach the model
/// </summary>
public void AttachData()
{
if (!(forestryModel.Parent is AgroforestrySystem))
{
throw new ApsimXException(forestryModel, "Error: TreeProxy must be a child of ForestrySystem.");
}
Soil soil;
List <IModel> zones = Apsim.ChildrenRecursively(forestryModel.Parent, typeof(Zone));
if (zones.Count == 0)
{
return;
}
// Setup tree heights.
forestryViewer.SetupHeights(forestryModel.Dates, forestryModel.Heights, forestryModel.NDemands, forestryModel.ShadeModifiers);
// Get the first soil. For now we're assuming all soils have the same structure.
soil = Apsim.Find(zones[0], typeof(Soil)) as Soil;
forestryViewer.SoilMidpoints = soil.DepthMidPoints;
// Setup columns.
List <string> colNames = new List <string>();
colNames.Add("Parameter");
colNames.Add("0");
colNames.Add("0.5h");
colNames.Add("1h");
colNames.Add("1.5h");
colNames.Add("2h");
colNames.Add("2.5h");
colNames.Add("3h");
colNames.Add("4h");
colNames.Add("5h");
colNames.Add("6h");
if (forestryModel.Table.Count == 0)
{
forestryModel.Table = new List <List <string> >();
forestryModel.Table.Add(colNames);
// Setup rows.
List <string> rowNames = new List <string>();
rowNames.Add("Shade (%)");
rowNames.Add("Root Length Density (cm/cm3)");
rowNames.Add("Depth (cm)");
foreach (string s in APSIM.Shared.APSoil.SoilUtilities.ToDepthStrings(soil.Thickness))
{
rowNames.Add(s);
}
forestryModel.Table.Add(rowNames);
for (int i = 2; i < colNames.Count + 1; i++)
{
forestryModel.Table.Add(Enumerable.Range(1, rowNames.Count).Select(x => "0").ToList());
}
for (int i = 2; i < forestryModel.Table.Count; i++)
{
// Set Depth and RLD rows to empty strings.
forestryModel.Table[i][1] = string.Empty;
forestryModel.Table[i][2] = string.Empty;
}
}
else
{
// add Zones not in the table
IEnumerable <string> except = colNames.Except(forestryModel.Table[0]);
foreach (string s in except)
{
forestryModel.Table.Add(Enumerable.Range(1, forestryModel.Table[1].Count).Select(x => "0").ToList());
}
forestryModel.Table[0].AddRange(except);
for (int i = 2; i < forestryModel.Table.Count; i++)
{
// Set Depth and RLD rows to empty strings.
forestryModel.Table[i][2] = string.Empty;
}
// Remove Zones from table that don't exist in simulation.
except = forestryModel.Table[0].Except(colNames);
List <int> indexes = new List <int>();
foreach (string s in except.ToArray())
{
indexes.Add(forestryModel.Table[0].FindIndex(x => s == x));
}
indexes.Sort();
indexes.Reverse();
foreach (int i in indexes)
{
forestryModel.Table[0].RemoveAt(i);
forestryModel.Table.RemoveAt(i + 1);
}
}
forestryViewer.SpatialData = forestryModel.Table;
}
public void AttachData()
{
if (!(ForestryModel.Parent is AgroforestrySystem))
{
throw new ApsimXException(ForestryModel, "Error: TreeProxy must be a child of ForestrySystem.");
}
Soil Soil;
List <IModel> Zones = Apsim.ChildrenRecursively(ForestryModel.Parent, typeof(Zone));
if (Zones.Count == 0)
{
return;
}
// setup tree heights
ForestryViewer.SetupHeights(ForestryModel.dates, ForestryModel.heights, ForestryModel.NDemands, ForestryModel.CanopyWidths, ForestryModel.TreeLeafAreas);
/* //get the distance of each Zone from Tree.
* double zoneWidth = 0;
* double[] ZoneWidths = new double[Zones.Count];
*
* for (int i = 1; i < Zones.Count; i++) //skip first Zone with tree
* {
* if (Zones[i] is RectangularZone)
* zoneWidth = (Zones[i] as RectangularZone).Width;
* else if (Zones[i] is CircularZone)
* zoneWidth = (Zones[i] as CircularZone).Width;
*
* ZoneWidths[i] = ZoneWidths[i - 1] + zoneWidth;
* }*/
// get the first soil. For now we're assuming all soils have the same structure.
Soil = Apsim.Find(Zones[0], typeof(Soil)) as Soil;
ForestryViewer.SoilMidpoints = Soil.DepthMidPoints;
// setup columns
List <string> colNames = new List <string>();
colNames.Add("Parameter");
colNames.Add("0");
colNames.Add("0.5h");
colNames.Add("1h");
colNames.Add("1.5h");
colNames.Add("2h");
colNames.Add("2.5h");
colNames.Add("3h");
colNames.Add("4h");
colNames.Add("5h");
colNames.Add("6h");
if (ForestryModel.Table.Count == 0)
{
ForestryModel.Table = new List <List <String> >();
ForestryModel.Table.Add(colNames);
// setup rows
List <string> rowNames = new List <string>();
rowNames.Add("Shade (%)");
rowNames.Add("Root Length Density (cm/cm3)");
rowNames.Add("Depth (cm)");
foreach (string s in Soil.Depth)
{
rowNames.Add(s);
}
ForestryModel.Table.Add(rowNames);
for (int i = 2; i < colNames.Count + 1; i++)
{
ForestryModel.Table.Add(Enumerable.Range(1, rowNames.Count).Select(x => "0").ToList());
}
for (int i = 2; i < ForestryModel.Table.Count; i++) // set Depth and RLD rows to empty strings
{
ForestryModel.Table[i][1] = string.Empty;
ForestryModel.Table[i][2] = string.Empty;
}
}
else
{
// add Zones not in the table
IEnumerable <string> except = colNames.Except(ForestryModel.Table[0]);
foreach (string s in except)
{
ForestryModel.Table.Add(Enumerable.Range(1, ForestryModel.Table[1].Count).Select(x => "0").ToList());
}
ForestryModel.Table[0].AddRange(except);
for (int i = 2; i < ForestryModel.Table.Count; i++) // set Depth and RLD rows to empty strings
{
ForestryModel.Table[i][2] = string.Empty;
// ForestryModel.Table[i][3] = string.Empty;
}
// remove Zones from table that don't exist in simulation
except = ForestryModel.Table[0].Except(colNames);
List <int> indexes = new List <int>();
foreach (string s in except.ToArray())
{
indexes.Add(ForestryModel.Table[0].FindIndex(x => s == x));
}
indexes.Sort();
indexes.Reverse();
foreach (int i in indexes)
{
ForestryModel.Table[0].RemoveAt(i);
ForestryModel.Table.RemoveAt(i + 1);
}
}
ForestryViewer.SetupGrid(ForestryModel.Table);
}