public static void SetStartEndYears(int years)
{
GeoData.GetStartEndYears(rainSourceIndex);
int yrs = endYear - startYear + 1;
if (yrs >= years)
{
yrs = years;
}
startYear = endYear - yrs + 1;
}
// Finds adjustments to monthly average rainfall depths for a choice of
// precip. station location and climate projection year.
private static void UpdateRainfallAdjustments()
{
// Get rainfall adjustments for each scenario
string rainID = GeoData.GetStationID(SiteData.rainSourceIndex);
double[] y = new double[12];
string precTable;
rainDelta1.Clear();
if (SiteData.climateYear == 2035)
{
precTable = StormwaterCalculator.Properties.Resources.PREC2035Hot;
}
else
{
precTable = StormwaterCalculator.Properties.Resources.PREC2060Hot;
}
if (GetRainfallAdjustments(precTable, rainID, ref y))
{
rainDelta1.Add(null, y);
}
rainDelta2.Clear();
if (SiteData.climateYear == 2035)
{
precTable = StormwaterCalculator.Properties.Resources.PREC2035Med;
}
else
{
precTable = StormwaterCalculator.Properties.Resources.PREC2060Med;
}
if (GetRainfallAdjustments(precTable, rainID, ref y))
{
rainDelta2.Add(null, y);
}
rainDelta3.Clear();
if (SiteData.climateYear == 2035)
{
precTable = StormwaterCalculator.Properties.Resources.PREC2035Wet;
}
else
{
precTable = StormwaterCalculator.Properties.Resources.PREC2060Wet;
}
if (GetRainfallAdjustments(precTable, rainID, ref y))
{
rainDelta3.Add(null, y);
}
}
public static void SaveEvapData(int stationIndex, string stationName)
{
SaveFileDialog saveFileDialog1 = new SaveFileDialog();
saveFileDialog1.Filter = "Data files (*.dat)|*.dat|All files (*.*)|*.*";
saveFileDialog1.FilterIndex = 1;
saveFileDialog1.FileName = "Evap - " + stationName + ".dat";
if (saveFileDialog1.ShowDialog() == DialogResult.OK)
{
StreamWriter writer = new StreamWriter(saveFileDialog1.FileName);
writer.WriteLine(GeoData.GetEvapData(evapSourceIndex, false));
writer.Close();
}
}
public static void SaveRainfallData(int stationIndex)
{
SaveFileDialog saveFileDialog1 = new SaveFileDialog();
saveFileDialog1.Filter = "Data files (*.dat)|*.dat|All files (*.*)|*.*";
saveFileDialog1.FilterIndex = 1;
saveFileDialog1.FileName =
"Rain - " + GeoData.GetStationID(stationIndex) + ".dat";
if (saveFileDialog1.ShowDialog() == DialogResult.OK)
{
if (GeoData.GetSwmmRainfall(stationIndex) == 0)
{
System.IO.File.Copy(SiteData.rainFile, saveFileDialog1.FileName, true);
}
}
}
public static void WriteLongTermInpFile()
{
File.Copy(inpFile1, inpFile, true);
using (StreamWriter sw = File.AppendText(inpFile))
{
sw.WriteLine("[RAINGAGES]");
string stationID = GeoData.GetStationID(SiteData.rainSourceIndex);
string fname = rainFile;
sw.WriteLine(
"RainGage1 INTENSITY 1:00 1.0 FILE \"" + fname + "\" " + stationID + " IN");
sw.WriteLine();
// Rainfall adjustments
if (climateScenarioIndex > 0)
{
sw.WriteLine("[ADJUSTMENTS]");
sw.WriteLine(Climate.GetPrecipData(climateScenarioIndex));
sw.WriteLine();
}
}
}
//------------------------------------------------------------------------
// Retrieves the SCS design storm distribution type for a precip. station.
//------------------------------------------------------------------------
public static string GetScsType()
{
string rainID = GeoData.GetStationID(SiteData.rainSourceIndex);
string table = StormwaterCalculator.Properties.Resources.PREC_SCS_Types;
string line;
try
{
using (StringReader sr = new StringReader(table))
{
line = sr.ReadLine();
while (true)
{
line = sr.ReadLine();
if (line == null)
{
return("II");
}
if (line.StartsWith(rainID))
{
string[] values = line.Split(default(Char[]),
StringSplitOptions.RemoveEmptyEntries);
if (values.Length >= 2)
{
return(values[1]);
}
}
}
}
}
catch (Exception ex)
{
MessageBox.Show(ex.Message, "File Error",
MessageBoxButtons.OK, MessageBoxIcon.Error);
return("II");
}
}
// Finds adjustments to monthly evap. rates for a choice of evap. station
// and climate projection year.
private static void UpdateEvapAdjustments()
{
// Get evap values for each scenario
string evapID = GeoData.GetEvapStationID(SiteData.evapSourceIndex);
double[] y = new double[12];
string evapTable;
evap1.Clear();
if (SiteData.climateYear == 2035)
{
evapTable = StormwaterCalculator.Properties.Resources.Pmet2035Hot;
}
else
{
evapTable = StormwaterCalculator.Properties.Resources.Pmet2060Hot;
}
if (GetEvapAdjustments(evapTable, evapID, ref y))
{
evap1.Add(null, y);
}
evap2.Clear();
if (SiteData.climateYear == 2035)
{
evapTable = StormwaterCalculator.Properties.Resources.Pmet2035Med;
}
else
{
evapTable = StormwaterCalculator.Properties.Resources.Pmet2060Med;
}
if (GetEvapAdjustments(evapTable, evapID, ref y))
{
evap2.Add(null, y);
}
evap3.Clear();
if (SiteData.climateYear == 2035)
{
evapTable = StormwaterCalculator.Properties.Resources.Pmet2035Wet;
}
else
{
evapTable = StormwaterCalculator.Properties.Resources.Pmet2060Wet;
}
if (GetEvapAdjustments(evapTable, evapID, ref y))
{
evap3.Add(null, y);
}
evap0.Clear();
string evapData = GeoData.GetEvapData(SiteData.evapSourceIndex, false);
string[] values = evapData.Split(default(Char[]), StringSplitOptions.RemoveEmptyEntries);
if (values.Length >= 12)
{
for (int i = 0; i < 12; i++)
{
y[i] = Double.Parse(values[i]);
}
evap0.Add(null, y);
}
}
