public void SingleEnsemble()
{
var fn = @"c:\temp\ensemble-single.h5";
File.Delete(fn);
string fileName = Path.Combine(EnsembleTester.CacheDir, "test.csv");
RfcCsvFile csv = new RfcCsvFile(fileName);
float[,] data = csv.GetEnsemble("SCRN2");
Watershed ws = new Watershed("simple");
DateTime t = DateTime.Now.Date.AddHours(12);
ws.AddForecast("scrn2", t, data, new DateTime[] { t });
H5Assist.H5Writer h5 = new H5Assist.H5Writer(fn);
HDF5Ensemble.Write(h5, ws);
var w = HDF5Ensemble.Read(h5, "simple");
Assert.AreEqual(1, w.Locations.Count);
var ensemble = w.Locations[0].Forecasts[0].Ensemble;
Assert.AreEqual(337, ensemble.GetLength(1));
Assert.AreEqual(59, ensemble.GetLength(0));
Assert.AreEqual(-59.0f, ensemble[58, 0]);
Assert.AreEqual(-59.1f, ensemble[58, 1]);
}
public void ProfileTesting()
{
var fn = @"C:\temp\dss7_profile_ensemble.dss";
File.Delete(fn);
string csvFilename = Path.Combine(EnsembleTester.CacheDir, "test.csv");
RfcCsvFile csv = new RfcCsvFile(csvFilename);
float[,] ensemble = null;
csv.GetEnsemble("SCRN2", ref ensemble);
Watershed ws = new Watershed("test");
DateTime issueDate = new DateTime(2001, 11, 15, 12, 0, 0);
ws.AddForecast("SCRN2", issueDate, ensemble, csv.TimeStamps);
DssEnsemble.WriteToTimeSeriesProfiles(fn, ws);
var ws2 = DssEnsemble.ReadTimeSeriesProfiles("test", issueDate, issueDate, fn);
Assert.AreEqual(1, ws2.Locations.Count);
var data = ws2.Locations[0].Forecasts[0].Ensemble;
Assert.AreEqual(-1.0f, data[0, 0]);
Assert.AreEqual(-2.1f, data[0, 1]);
Assert.AreEqual(-3.1f, data[0, 2]);
Assert.AreEqual(-59.0f, data[58, 0]);
Assert.AreEqual(-59.1f, data[58, 1]);
Assert.AreEqual(-59.2f, data[58, 2]);
}
private static Watershed ReadTestWaterShed(DateTime t)
{
string fileName = Path.Combine(EnsembleTester.CacheDir, "test.csv");
RfcCsvFile csv = new RfcCsvFile(fileName);
float[,] scrn2 = csv.GetEnsemble("SCRN2");
var rval = new Watershed("simple");
rval.AddForecast("scrn2", t, scrn2, new DateTime[] { t });
return(rval);
}
public void CsvTest()
{
string fileName = Path.Combine(EnsembleTester.CacheDir, "test.csv");
RfcCsvFile csv = new RfcCsvFile(fileName);
float[,] data = null;
csv.GetEnsemble("SCRN2", ref data);
Assert.AreEqual(-1.0f, data[0, 0]);
Assert.AreEqual(-2.1f, data[0, 1]);
Assert.AreEqual(-3.1f, data[0, 2]);
Assert.AreEqual(-59.0f, data[58, 0]);
Assert.AreEqual(-59.1f, data[58, 1]);
Assert.AreEqual(-59.2f, data[58, 2]);
}
public void TimeSeriesTesting()
{
var fn = @"C:\temp\dss7_ensemble.dss";
File.Delete(fn);
string fileName = Path.Combine(EnsembleTester.CacheDir, "test.csv");
RfcCsvFile csv = new RfcCsvFile(fileName);
float[,] ensemble = null;
csv.GetEnsemble("SCRN2", ref ensemble);
Watershed w = new Watershed("test");
w.AddForecast("SCRN2", DateTime.Parse("2001-11-15"), ensemble, csv.TimeStamps);
DssEnsemble.Write(fn, w);
using (DssReader r = new DssReader(fn))
{
var catalog = r.GetCatalog();
Assert.AreEqual(59, catalog.Count);
string path = "/test/SCRN2/Flow/01Nov2013/1Hour/C:000059|T:3192001/";
var ts = r.GetTimeSeries(new DssPath(path));
Assert.AreEqual(-59.0, ts[0].Value);
}
DateTime t1 = new DateTime(1900, 1, 1);
DateTime t2 = DateTime.Now.Date;
w = DssEnsemble.Read("test", t1, t2, fn);
Assert.AreEqual(1, w.Locations.Count);
ensemble = w.Locations[0].Forecasts[0].Ensemble;
Assert.AreEqual(337, ensemble.GetLength(1));
Assert.AreEqual(59, ensemble.GetLength(0));
Assert.AreEqual(-59.0f, ensemble[58, 0]);
Assert.AreEqual(-59.1f, ensemble[58, 1]);
}