/// <summary>
/// Gets evapotranspiration data using the given TimeSeriesInput parameters.
/// </summary>
/// <param name="input"></param>
/// <returns></returns>
public async Task <ITimeSeriesOutput> GetEvapotranspiration(EvapotranspirationInput input)
{
string errorMsg = "";
// Constructs default error output object containing error message.
Utilities.ErrorOutput err = new Utilities.ErrorOutput();
// Validate evapotranspiration sources.
errorMsg = (!Enum.TryParse(input.Source, true, out EvapoSources pSource)) ? "ERROR: 'Source' was not found or is invalid." : "";
if (errorMsg.Contains("ERROR"))
{
return(err.ReturnError(errorMsg));
}
// Evapotranspiration object
Evapotranspiration.Evapotranspiration evapo = new Evapotranspiration.Evapotranspiration()
{
Algorithm = input.Algorithm,
Albedo = input.Albedo,
CentralLongitude = input.CentralLongitude,
SunAngle = input.SunAngle,
Emissivity = input.Emissivity,
Model = input.Model,
Zenith = input.Zenith,
LakeSurfaceArea = input.LakeSurfaceArea,
LakeDepth = input.LakeDepth,
SubsurfaceResistance = input.SubsurfaceResistance,
StomatalResistance = input.StomatalResistance,
LeafWidth = input.LeafWidth,
RoughnessLength = input.RoughnessLength,
VegetationHeight = input.VegetationHeight,
LeafAreaIndices = input.LeafAreaIndices,
AirTemperature = input.AirTemperature,
UserData = input.UserData
};
// ITimeSeriesInputFactory object used to validate and initialize all variables of the input object.
ITimeSeriesInputFactory iFactory = new TimeSeriesInputFactory();
evapo.Input = iFactory.SetTimeSeriesInput(input, new List <string>()
{
"evapotranspiration"
}, out errorMsg);
// If error occurs in input validation and setup, errorMsg is added to metadata of an empty object.
if (errorMsg.Contains("ERROR"))
{
return(err.ReturnError(errorMsg));
}
// Gets the Evapotranspiration data.
ITimeSeriesOutput result = evapo.GetData(out errorMsg);
if (errorMsg.Contains("ERROR"))
{
return(err.ReturnError(errorMsg));
}
return(result);
}
private void BuildITimeSeries()
{
string errorMsg = "";
ITimeSeriesInputFactory iFactory = new TimeSeriesInputFactory();
timeSeries.Input = iFactory.SetTimeSeriesInput(validInput, new List <string>()
{
"precipitation"
}, out errorMsg);
}
public void SetTimeSeriesInputTestInvalidDataset()
{
string errorMsg = "";
ITimeSeriesInputFactory iFactory = new TimeSeriesInputFactory();
ITimeSeriesInput sampleInput = iFactory.SetTimeSeriesInput(validInput, new List <string>()
{
"BadDataset"
}, out errorMsg);
Assert.AreEqual("ERROR: Unable to construct base url from the specified dataset and provided data source.", errorMsg);
}
public void SetTimeSeriesInput()
{
string errorMsg = "";
ITimeSeriesInputFactory iFactory = new TimeSeriesInputFactory();
ITimeSeriesInput sampleInput = iFactory.SetTimeSeriesInput(validInput, new List <string>()
{
"precipitation"
}, out errorMsg);
Assert.Equal("", errorMsg);
}
public void SetTimeSeriesInput_DatasetTest(string dataset, string expected)
{
string errorMsg = "";
ITimeSeriesInputFactory iFactory = new TimeSeriesInputFactory();
ITimeSeriesInput sampleInput = iFactory.SetTimeSeriesInput(validInput, new List <string>()
{
dataset
}, out errorMsg);
Assert.Equal(expected, errorMsg);
}
public void SetValidTimeSeriesInputTest()
{
string errorMsg = "";
ITimeSeriesInputFactory iFactory = new TimeSeriesInputFactory();
ITimeSeriesInput sampleInput = iFactory.SetTimeSeriesInput(validInput, new List <string>()
{
"PRECIP"
}, out errorMsg);
Assert.AreEqual("", errorMsg);
}
/// <summary>
/// Checks the data endpoints for the Soil Moisture component.
/// </summary>
/// <returns></returns>
public static async Task <Dictionary <string, Dictionary <string, string> > > CheckSoilMEndpoints()
{
Dictionary <string, Dictionary <string, string> > endpoints = new Dictionary <string, Dictionary <string, string> >();
List <SoilMoisture.SoilMoisture> soils = new List <SoilMoisture.SoilMoisture>();
List <string> sources = new List <string>()
{
"nldas", "gldas"
};
ITimeSeriesInput testInput = new TimeSeriesInput()
{
Source = "nldas",
DateTimeSpan = new DateTimeSpan()
{
StartDate = new DateTime(2005, 01, 01),
EndDate = new DateTime(2005, 01, 05)
},
Geometry = new TimeSeriesGeometry()
{
Point = new PointCoordinate()
{
Latitude = 33.925673,
Longitude = -83.355723
},
GeometryMetadata = new Dictionary <string, string>()
}
};
ITimeSeriesInputFactory iFactory = new TimeSeriesInputFactory();
foreach (string source in sources)
{
string[] validLayers = (source.Contains("nldas")) ? new string[] { "0-10", "10-40", "40-100", "100-200", "0-100", "0-200" } : new string[] { "0-10", "10-40", "40-100", "0-100" };
foreach (string layer in validLayers)
{
SoilMoisture.SoilMoisture soil = new SoilMoisture.SoilMoisture();
testInput.Source = source;
string l = layer.Replace('-', '_') + "_soilmoisture";
soil.Input = iFactory.SetTimeSeriesInput(testInput, new List <string>()
{
l
}, out string errorMsg);
soil.Input.Source = source + "_" + l;
soils.Add(soil);
}
}
Parallel.ForEach(soils, (SoilMoisture.SoilMoisture soil) =>
{
endpoints.Add(soil.Input.Source, soil.CheckEndpointStatus());
});
return(endpoints);
}
/// <summary>
/// Gets the historic precipitation data.
/// </summary>
/// <param name="errorMsg"></param>
/// <param name="years">Years of historic data.</param>
/// <param name="input"></param>
/// <param name="output"></param>
/// <returns></returns>
private ITimeSeriesOutput GetHistoricData(out string errorMsg, int years, ITimeSeriesInput input, ITimeSeriesOutput output)
{
errorMsg = "";
Precipitation precip = new Precipitation();
precip.Input = input;
precip.Output = output;
// Historic end date set to simulated data start date minus one day.
precip.Input.DateTimeSpan.EndDate = precip.Input.DateTimeSpan.StartDate.AddDays(-1);
// Historic start date set to 20 years before simulated start date.
precip.Input.DateTimeSpan.StartDate = precip.Input.DateTimeSpan.StartDate.AddYears(-1 * Math.Abs(years));
if (input.Geometry.GeometryMetadata.ContainsKey("historicSource"))
{
switch (input.Geometry.GeometryMetadata["historicSource"])
{
case "nldas":
input.Source = "nldas";
input.TemporalResolution = "daily";
break;
case "gldas":
input.Source = "gldas";
input.TemporalResolution = "daily";
break;
case "daymet":
default:
input.Source = "daymet";
break;
}
}
else
{
input.Source = "daymet";
}
ITimeSeriesInputFactory iFactory = new TimeSeriesInputFactory();
ITimeSeriesInput tempInput = iFactory.SetTimeSeriesInput(input, new List <string>()
{
"precip"
}, out errorMsg);
precip.Input = tempInput;
precip.Output = precip.GetData(out errorMsg);
if (errorMsg.Contains("ERROR"))
{
return(null);
}
return(precip.Output);
}
/// <summary>
/// Checks the data endpoints for the Precipitation component.
/// </summary>
/// <returns></returns>
public async static Task <Dictionary <string, Dictionary <string, string> > > CheckPrecipEndpoints()
{
Dictionary <string, Dictionary <string, string> > endpoints = new Dictionary <string, Dictionary <string, string> >();
List <Precipitation.Precipitation> precips = new List <Precipitation.Precipitation>();
List <string> sources = new List <string>()
{
"nldas", "gldas", "ncdc", "daymet"
};
ITimeSeriesInput testInput = new TimeSeriesInput()
{
Source = "nldas",
DateTimeSpan = new DateTimeSpan()
{
StartDate = new DateTime(2005, 01, 01),
EndDate = new DateTime(2005, 01, 05)
},
Geometry = new TimeSeriesGeometry()
{
Point = new PointCoordinate()
{
Latitude = 33.925673,
Longitude = -83.355723
},
GeometryMetadata = new Dictionary <string, string>()
}
};
ITimeSeriesInputFactory iFactory = new TimeSeriesInputFactory();
foreach (string source in sources)
{
Precipitation.Precipitation precip = new Precipitation.Precipitation();
testInput.Source = source;
precip.Input = iFactory.SetTimeSeriesInput(testInput, new List <string>()
{
"precipitation"
}, out string errorMsg);
if (source.Contains("ncdc"))
{
precip.Input.Geometry.GeometryMetadata["stationID"] = "GHCND:USW00013874";
precip.Input.Geometry.GeometryMetadata["token"] = "RUYNSTvfSvtosAoakBSpgxcHASBxazzP";
}
precips.Add(precip);
}
Parallel.ForEach(precips, (Precipitation.Precipitation precip) =>
{
endpoints.Add(precip.Input.Source, precip.CheckEndpointStatus());
});
return(endpoints);
}
/// <summary>
/// Gets SoilMoisture data using the given TimeSeriesInput parameters.
/// </summary>
/// <param name="input"></param>
/// <returns></returns>
public ITimeSeriesOutput GetSoilMoisture(SoilMoistureInput input)
{
string errorMsg = "";
// Constructs default error output object containing error message.
Utilities.ErrorOutput err = new Utilities.ErrorOutput();
// Validate SoilMoisture sources.
errorMsg = (!Enum.TryParse(input.Source, true, out SoilMSources pSource)) ? "ERROR: 'Source' was not found or is invalid." : "";
if (errorMsg.Contains("ERROR"))
{
return(err.ReturnError(errorMsg));
}
// SoilMoisture object
SoilMoisture.SoilMoisture soilM = new SoilMoisture.SoilMoisture()
{
Layers = input.Layers
};
// Assigning dataset values, used to determine base url
List <string> dataset = new List <string>();
foreach (string layer in soilM.Layers)
{
string l = layer.Replace('-', '_');
dataset.Add(l + "_SOILM");
}
// ITimeSeriesInputFactory object used to validate and initialize all variables of the input object.
ITimeSeriesInputFactory iFactory = new TimeSeriesInputFactory();
soilM.Input = iFactory.SetTimeSeriesInput(input, dataset, out errorMsg);
// If error occurs in input validation and setup, errorMsg is added to metadata of an empty object.
if (errorMsg.Contains("ERROR"))
{
return(err.ReturnError(errorMsg));
}
// Gets the SoilMoisture data.
ITimeSeriesOutput result = soilM.GetData(out errorMsg);
if (errorMsg.Contains("ERROR"))
{
return(err.ReturnError(errorMsg));
}
return(result);
}
public void SetTimeSeriesInputTestInvalidDate()
{
string errorMsg = "";
ITimeSeriesInputFactory iFactory = new TimeSeriesInputFactory();
TimeSeriesInput badDate = new TimeSeriesInput();
badDate = validInput;
badDate.DateTimeSpan.StartDate = new DateTime(2015, 01, 10);
ITimeSeriesInput sampleInput = iFactory.SetTimeSeriesInput(badDate, new List <string>()
{
"PRECIP"
}, out errorMsg);
Assert.AreEqual("ERROR: Start date must be before end date.", errorMsg);
}
public void SetTimeSeriesInput_SourceTest(string source, string expected)
{
string errorMsg = "";
ITimeSeriesInputFactory iFactory = new TimeSeriesInputFactory();
TimeSeriesInput badSource = new TimeSeriesInput();
badSource = validInput;
badSource.Source = source;
ITimeSeriesInput sampleInput = iFactory.SetTimeSeriesInput(badSource, new List <string>()
{
"precipitation"
}, out errorMsg);
Assert.Equal(expected, errorMsg);
}
public void SetTimeSeriesInputTestNoDate()
{
string errorMsg = "";
ITimeSeriesInputFactory iFactory = new TimeSeriesInputFactory();
TimeSeriesInput noSDate = new TimeSeriesInput();
noSDate = validInput;
noSDate.DateTimeSpan = null;
ITimeSeriesInput sampleInput = iFactory.SetTimeSeriesInput(noSDate, new List <string>()
{
"PRECIP"
}, out errorMsg);
Assert.AreEqual("ERROR: DateTimeSpan object is null. DateTimeSpan, with a StartDate and EndDate, is required.", errorMsg);
}
public void SetTimeSeriesInputTest_GeometryTest()
{
string errorMsg = "";
ITimeSeriesInputFactory iFactory = new TimeSeriesInputFactory();
TimeSeriesInput noGeom = new TimeSeriesInput();
noGeom = validInput;
noGeom.Geometry = null;
ITimeSeriesInput sampleInput = iFactory.SetTimeSeriesInput(noGeom, new List <string>()
{
"precipitation"
}, out errorMsg);
Assert.Equal("ERROR: No input geometry was found.", errorMsg);
}
public void SetTimeSeriesInput_DateTimeSpanTest()
{
string errorMsg = "";
ITimeSeriesInputFactory iFactory = new TimeSeriesInputFactory();
TimeSeriesInput noSDate = new TimeSeriesInput();
noSDate = validInput;
noSDate.DateTimeSpan = null;
ITimeSeriesInput sampleInput = iFactory.SetTimeSeriesInput(noSDate, new List <string>()
{
"precipitation"
}, out errorMsg);
Assert.Equal("ERROR: No DateTimeSpan found.", errorMsg);
}
public void SetTimeSeriesInputTestNoPoint()
{
string errorMsg = "";
ITimeSeriesInputFactory iFactory = new TimeSeriesInputFactory();
TimeSeriesInput noPoint = new TimeSeriesInput();
noPoint = validInput;
noPoint.Geometry.Point = null;
ITimeSeriesInput sampleInput = iFactory.SetTimeSeriesInput(noPoint, new List <string>()
{
"PRECIP"
}, out errorMsg);
Assert.AreEqual("ERROR: No geometry values found in the provided parameters.", errorMsg);
}
public void SetTimeSeriesInputTestInvalidLongitude()
{
string errorMsg = "";
ITimeSeriesInputFactory iFactory = new TimeSeriesInputFactory();
TimeSeriesInput invLon = new TimeSeriesInput();
invLon = validInput;
invLon.Geometry.Point.Latitude = 200;
ITimeSeriesInput sampleInput = iFactory.SetTimeSeriesInput(invLon, new List <string>()
{
"PRECIP"
}, out errorMsg);
Assert.AreEqual("ERROR: Latitude or Longitude value is not a valid coordinate.", errorMsg);
}
public void SetTimeSeriesInputTestNoSource()
{
string errorMsg = "";
ITimeSeriesInputFactory iFactory = new TimeSeriesInputFactory();
TimeSeriesInput badSource = new TimeSeriesInput();
badSource = validInput;
badSource.Source = "";
ITimeSeriesInput sampleInput = iFactory.SetTimeSeriesInput(badSource, new List <string>()
{
"PRECIP"
}, out errorMsg);
Assert.AreEqual("ERROR: Required 'Source' parameter was not found or is invalid.", errorMsg);
}
public void SetTimeSeriesInputTestInvalidSource()
{
string errorMsg = "";
ITimeSeriesInputFactory iFactory = new TimeSeriesInputFactory();
TimeSeriesInput badSource = new TimeSeriesInput();
badSource = validInput;
badSource.Source = "badSource";
ITimeSeriesInput sampleInput = iFactory.SetTimeSeriesInput(badSource, new List <string>()
{
"PRECIP"
}, out errorMsg);
Assert.AreEqual("ERROR: Provided source is not valid. Unable to construct base url.", errorMsg);
}
public void SetTimeSeriesInput_LatLongTest(double latitude, double longitude, string expected)
{
string errorMsg = "";
ITimeSeriesInputFactory iFactory = new TimeSeriesInputFactory();
TimeSeriesInput latLongTest = new TimeSeriesInput();
latLongTest = validInput;
latLongTest.Geometry.Point.Latitude = latitude;
latLongTest.Geometry.Point.Longitude = longitude;
ITimeSeriesInput sampleInput = iFactory.SetTimeSeriesInput(latLongTest, new List <string>()
{
"precipitation"
}, out errorMsg);
Assert.Equal(expected, errorMsg);
}
/// <summary>
/// Initiates the wgen precip generator.
/// </summary>
/// <param name="errorMsg"></param>
/// <param name="output"></param>
/// <param name="input"></param>
/// <returns></returns>
public ITimeSeriesOutput GetData(out string errorMsg, ITimeSeriesOutput output, ITimeSeriesInput input)
{
errorMsg = "";
Data.Simulate.WGEN wgen = new Data.Simulate.WGEN();
IDateTimeSpan tempDates = new DateTimeSpan()
{
StartDate = input.DateTimeSpan.StartDate,
EndDate = input.DateTimeSpan.EndDate,
DateTimeFormat = input.DateTimeSpan.DateTimeFormat
};
// The number of years of historic data can be customized by includead 'yearsHistoric' in Geometry.GeometryMetadata
int years = (input.Geometry.GeometryMetadata.ContainsKey("yearsHistoric")) ? Convert.ToInt16(input.Geometry.GeometryMetadata["yearsHistoric"]) : 20;
// Historic Precipitation data.
ITimeSeriesInputFactory iFactory = new TimeSeriesInputFactory();
ITimeSeriesInput tempInput = input;
tempInput.Source = "daymet";
ITimeSeriesInput historicInput = iFactory.SetTimeSeriesInput(tempInput, new List <string>()
{
"precipitation"
}, out errorMsg);
ITimeSeriesOutput historicData = GetHistoricData(out errorMsg, years, historicInput, output);
if (errorMsg.Contains("ERROR"))
{
return(null);
}
// Run wgen
ITimeSeriesOutput outputData = output;
input.DateTimeSpan = tempDates as DateTimeSpan;
outputData = wgen.Simulate(out errorMsg, years, input, output, historicData);
if (errorMsg.Contains("ERROR"))
{
return(null);
}
// Unit conversion and temporal aggregation
outputData = TemporalAggregation(out errorMsg, outputData, input);
if (errorMsg.Contains("ERROR"))
{
return(null);
}
return(outputData);
}
/// <summary>
/// Gets precipitation data.
/// </summary>
/// <param name="errorMsg"></param>
/// <param name="input"></param>
/// <param name="output"></param>
/// <returns></returns>
private ITimeSeriesOutput GetPrecipData(out string errorMsg, ITimeSeriesInput input, ITimeSeriesOutput output)
{
errorMsg = "";
Precipitation.Precipitation precip = new Precipitation.Precipitation();
precip.Input = input;
precip.Output = output;
if (input.Geometry.GeometryMetadata.ContainsKey("precipSource"))
{
switch (input.Geometry.GeometryMetadata["precipSource"])
{
case "nldas":
input.Source = "nldas";
input.TemporalResolution = "daily";
break;
case "gldas":
input.Source = "gldas";
input.TemporalResolution = "daily";
break;
case "daymet":
default:
input.Source = "daymet";
break;
}
}
else
{
input.Source = "daymet";
}
ITimeSeriesInputFactory iFactory = new TimeSeriesInputFactory();
ITimeSeriesInput tempInput = iFactory.SetTimeSeriesInput(input, new List <string>()
{
"precip"
}, out errorMsg);
precip.Input = tempInput;
precip.Output = precip.GetData(out errorMsg);
if (errorMsg.Contains("ERROR"))
{
return(null);
}
return(precip.Output);
}
/// <summary>
/// Gets precipitation data using the given TimeSeriesInput parameters.
/// </summary>
/// <param name="input">ITimeSeriesInput</param>
/// <returns></returns>
public ITimeSeriesOutput GetPrecipitation(ITimeSeriesInput input)
{
string errorMsg = "";
// Constructs default error output object containing error message.
Utilities.ErrorOutput err = new Utilities.ErrorOutput();
// Validate precipitation sources.
errorMsg = (!Enum.TryParse(input.Source, true, out PrecipSources pSource)) ? "ERROR: 'Source' was not found or is invalid.": "";
if (errorMsg.Contains("ERROR"))
{
return(err.ReturnError(errorMsg));
}
// Precipitation object
Precipitation.Precipitation precip = new Precipitation.Precipitation();
// ITimeSeriesInputFactory object used to validate and initialize all variables of the input object.
ITimeSeriesInputFactory iFactory = new TimeSeriesInputFactory();
precip.Input = iFactory.SetTimeSeriesInput(input, new List <string>()
{
"PRECIP"
}, out errorMsg);
// If error occurs in input validation and setup, errorMsg is added to metadata of an empty object.
if (errorMsg.Contains("ERROR"))
{
return(err.ReturnError(errorMsg));
}
if (precip.Input.Source.Contains("ncdc"))
{
precip.Input.Geometry.GeometryMetadata["token"] = (precip.Input.Geometry.GeometryMetadata.ContainsKey("token")) ? precip.Input.Geometry.GeometryMetadata["token"] : "RUYNSTvfSvtosAoakBSpgxcHASBxazzP";
}
// Gets the Precipitation data.
ITimeSeriesOutput result = precip.GetData(out errorMsg);
if (errorMsg.Contains("ERROR"))
{
return(err.ReturnError(errorMsg));
}
return(result);
}
/// <summary>
/// Checks the data endpoints for the Evapotranspiration component.
/// </summary>
/// <returns></returns>
public static async Task <Dictionary <string, Dictionary <string, string> > > CheckEvapoEndpoints()
{
Dictionary <string, Dictionary <string, string> > endpoints = new Dictionary <string, Dictionary <string, string> >();
List <Evapotranspiration.Evapotranspiration> evapos = new List <Evapotranspiration.Evapotranspiration>();
List <string> sources = new List <string>()
{
"nldas", "gldas"
};
ITimeSeriesInput testInput = new TimeSeriesInput()
{
Source = "nldas",
DateTimeSpan = new DateTimeSpan()
{
StartDate = new DateTime(2005, 01, 01),
EndDate = new DateTime(2005, 01, 05)
},
Geometry = new TimeSeriesGeometry()
{
Point = new PointCoordinate()
{
Latitude = 33.925673,
Longitude = -83.355723
},
GeometryMetadata = new Dictionary <string, string>()
}
};
ITimeSeriesInputFactory iFactory = new TimeSeriesInputFactory();
foreach (string source in sources)
{
Evapotranspiration.Evapotranspiration evapo = new Evapotranspiration.Evapotranspiration();
testInput.Source = source;
evapo.Input = iFactory.SetTimeSeriesInput(testInput, new List <string>()
{
"evapotranspiration"
}, out string errorMsg);
evapos.Add(evapo);
}
Parallel.ForEach(evapos, (Evapotranspiration.Evapotranspiration evapo) =>
{
endpoints.Add(evapo.Input.Source, evapo.CheckEndpointStatus());
});
return(endpoints);
}
/// <summary>
/// Checks the data endpoints for the Sub-Surface Flow component.
/// </summary>
/// <returns></returns>
public static Dictionary <string, Dictionary <string, string> > CheckSubsurfaceEndpoints()
{
Dictionary <string, Dictionary <string, string> > endpoints = new Dictionary <string, Dictionary <string, string> >();
List <SubSurfaceFlow.SubSurfaceFlow> subsurfaces = new List <SubSurfaceFlow.SubSurfaceFlow>();
List <string> sources = new List <string>()
{
"nldas", "gldas"
};
ITimeSeriesInput testInput = new TimeSeriesInput()
{
Source = "nldas",
DateTimeSpan = new DateTimeSpan()
{
StartDate = new DateTime(2005, 01, 01),
EndDate = new DateTime(2005, 01, 05)
},
Geometry = new TimeSeriesGeometry()
{
Point = new PointCoordinate()
{
Latitude = 33.925673,
Longitude = -83.355723
},
GeometryMetadata = new Dictionary <string, string>()
}
};
ITimeSeriesInputFactory iFactory = new TimeSeriesInputFactory();
foreach (string source in sources)
{
SubSurfaceFlow.SubSurfaceFlow subsurface = new SubSurfaceFlow.SubSurfaceFlow();
testInput.Source = source;
subsurface.Input = iFactory.SetTimeSeriesInput(testInput, new List <string>()
{
"BASEFLOW"
}, out string errorMsg);
subsurfaces.Add(subsurface);
}
Parallel.ForEach(subsurfaces, (SubSurfaceFlow.SubSurfaceFlow subsurface) =>
{
endpoints.Add(subsurface.Input.Source, subsurface.CheckEndpointStatus());
});
return(endpoints);
}
/// <summary>
/// Checks the data endpoints for the Temperature component.
/// </summary>
/// <returns></returns>
public static async Task <Dictionary <string, Dictionary <string, string> > > CheckTempEndpoints()
{
Dictionary <string, Dictionary <string, string> > endpoints = new Dictionary <string, Dictionary <string, string> >();
List <Temperature.Temperature> temps = new List <Temperature.Temperature>();
List <string> sources = new List <string>()
{
"nldas", "gldas", "daymet"
};
ITimeSeriesInput testInput = new TimeSeriesInput()
{
Source = "nldas",
DateTimeSpan = new DateTimeSpan()
{
StartDate = new DateTime(2005, 01, 01),
EndDate = new DateTime(2005, 01, 05)
},
Geometry = new TimeSeriesGeometry()
{
Point = new PointCoordinate()
{
Latitude = 33.925673,
Longitude = -83.355723
},
GeometryMetadata = new Dictionary <string, string>()
}
};
ITimeSeriesInputFactory iFactory = new TimeSeriesInputFactory();
foreach (string source in sources)
{
Temperature.Temperature temp = new Temperature.Temperature();
testInput.Source = source;
temp.Input = iFactory.SetTimeSeriesInput(testInput, new List <string>()
{
"temperature"
}, out string errorMsg);
temps.Add(temp);
}
Parallel.ForEach(temps, (Temperature.Temperature temp) =>
{
endpoints.Add(temp.Input.Source, temp.CheckEndpointStatus());
});
return(endpoints);
}
/// <summary>
/// Checks the data endpoints for the SurfaceRunoff component.
/// </summary>
/// <returns></returns>
public static async Task <Dictionary <string, Dictionary <string, string> > > CheckRunoffEndpoints()
{
Dictionary <string, Dictionary <string, string> > endpoints = new Dictionary <string, Dictionary <string, string> >();
List <SurfaceRunoff.SurfaceRunoff> runoffs = new List <SurfaceRunoff.SurfaceRunoff>();
List <string> sources = new List <string>()
{
"nldas", "gldas"
};
ITimeSeriesInput testInput = new TimeSeriesInput()
{
Source = "nldas",
DateTimeSpan = new DateTimeSpan()
{
StartDate = new DateTime(2005, 01, 01),
EndDate = new DateTime(2005, 01, 05)
},
Geometry = new TimeSeriesGeometry()
{
Point = new PointCoordinate()
{
Latitude = 33.925673,
Longitude = -83.355723
},
GeometryMetadata = new Dictionary <string, string>()
}
};
ITimeSeriesInputFactory iFactory = new TimeSeriesInputFactory();
foreach (string source in sources)
{
SurfaceRunoff.SurfaceRunoff runoff = new SurfaceRunoff.SurfaceRunoff();
testInput.Source = source;
runoff.Input = iFactory.SetTimeSeriesInput(testInput, new List <string>()
{
"surfacerunoff"
}, out string errorMsg);
runoffs.Add(runoff);
}
Parallel.ForEach(runoffs, (SurfaceRunoff.SurfaceRunoff runoff) =>
{
endpoints.Add(runoff.Input.Source, runoff.CheckEndpointStatus());
});
return(endpoints);
}
/// <summary>
/// GetData function for curvenumber.
/// </summary>
/// <param name="errorMsg"></param>
/// <param name="output"></param>
/// <param name="input"></param>
/// <returns></returns>
public ITimeSeriesOutput GetData(out string errorMsg, ITimeSeriesOutput output, ITimeSeriesInput input)
{
errorMsg = "";
ITimeSeriesInputFactory iFactory = new TimeSeriesInputFactory();
// TODO: Add options for different precip inputs
input.Source = "daymet";
ITimeSeriesInput precipInput = iFactory.SetTimeSeriesInput(input, new List <string>()
{
"precipitation"
}, out errorMsg);
// Test comid=718276, latitude=46.69580547, longitude=-69.36054766
precipInput.Geometry.Point = new PointCoordinate()
{
Latitude = 46.69580547,
Longitude = -69.36054766
};
input.Geometry.ComID = 718276;
ITimeSeriesOutput precipData = GetPrecipData(out errorMsg, precipInput, output);
if (errorMsg.Contains("ERROR"))
{
return(null);
}
Data.Simulate.CurveNumber cn = new Data.Simulate.CurveNumber();
ITimeSeriesOutput cnOutput = cn.Simulate(out errorMsg, input, precipData);
if (errorMsg.Contains("ERROR"))
{
return(null);
}
//ITimeSeriesOutput cnOutput = output;
//cnOutput = cn.SetDataToOutput(out errorMsg, "SurfaceRunoff", data, output, input);
//if (errorMsg.Contains("ERROR")) { return null; }
//TODO: add temporal resolution function
return(cnOutput);
}
/// <summary>
/// Gets SurfaceRunoff data using the given TimeSeriesInput parameters.
/// </summary>
/// <param name="input"></param>
/// <returns></returns>
public ITimeSeriesOutput GetSurfaceRunoff(ITimeSeriesInput input)
{
string errorMsg = "";
// Constructs default error output object containing error message.
Utilities.ErrorOutput err = new Utilities.ErrorOutput();
// Validate SurfaceRunoff sources.
errorMsg = (!Enum.TryParse(input.Source, true, out RunoffSources pSource)) ? "ERROR: 'Source' was not found or is invalid." : "";
if (errorMsg.Contains("ERROR"))
{
return(err.ReturnError(errorMsg));
}
// SurfaceRunoff object
SurfaceRunoff.SurfaceRunoff runoff = new SurfaceRunoff.SurfaceRunoff();
// ITimeSeriesInputFactory object used to validate and initialize all variables of the input object.
ITimeSeriesInputFactory iFactory = new TimeSeriesInputFactory();
runoff.Input = iFactory.SetTimeSeriesInput(input, new List <string>()
{
"SURFFLOW"
}, out errorMsg);
// If error occurs in input validation and setup, errorMsg is added to metadata of an empty object.
if (errorMsg.Contains("ERROR"))
{
return(err.ReturnError(errorMsg));
}
// Gets the SurfaceRunoff data.
ITimeSeriesOutput result = runoff.GetData(out errorMsg);
if (errorMsg.Contains("ERROR"))
{
return(err.ReturnError(errorMsg));
}
return(result);
}
/// <summary>
/// Gets evapotranspiration data using the given TimeSeriesInput parameters.
/// </summary>
/// <param name="input"></param>
/// <returns></returns>
public ITimeSeriesOutput GetEvapotranspiration(ITimeSeriesInput input)
{
string errorMsg = "";
// Constructs default error output object containing error message.
Utilities.ErrorOutput err = new Utilities.ErrorOutput();
// Validate evapotranspiration sources.
errorMsg = (!Enum.TryParse(input.Source, true, out EvapoSources pSource)) ? "ERROR: 'Source' was not found or is invalid." : "";
if (errorMsg.Contains("ERROR"))
{
return(err.ReturnError(errorMsg));
}
// Evapotranspiration object
Evapotranspiration.Evapotranspiration evapo = new Evapotranspiration.Evapotranspiration();
// ITimeSeriesInputFactory object used to validate and initialize all variables of the input object.
ITimeSeriesInputFactory iFactory = new TimeSeriesInputFactory();
evapo.Input = iFactory.SetTimeSeriesInput(input, new List <string>()
{
"EVAPOT"
}, out errorMsg);
// If error occurs in input validation and setup, errorMsg is added to metadata of an empty object.
if (errorMsg.Contains("ERROR"))
{
return(err.ReturnError(errorMsg));
}
// Gets the Evapotranspiration data.
ITimeSeriesOutput result = evapo.GetData(out errorMsg);
if (errorMsg.Contains("ERROR"))
{
return(err.ReturnError(errorMsg));
}
return(result);
}
