public void Test_TimeStepping()
{
Debug.WriteLine("\n\n---------------------------------------------------");
Debug.WriteLine("Testing the Perform Time Step Method for Timestepping error");
Debug.WriteLine("---------------------------------------------------");
//initialize the component
edu.SC.Models.Routing.Muskingum Routing = new edu.SC.Models.Routing.Muskingum();
System.Collections.Hashtable args = new System.Collections.Hashtable();
args.Add("ConfigFile", "ConfigTest_2reaches.xml");
Routing.Initialize(args);
//Begin Perform Time Step Procedures
//define the input hydrograph.
//double[,] p = new double[16, 2] {{0.0,0},{800.0,0},{2000.0,0},{4200.0,0},{5200.0,0},
// {4400.0,0},{3200.0,0},{2500.0,0},{2000.0,0},{1500.0,0},
// {1000.0,0},{700.0,0},{400.0,0},{0.0,0},{0.0,0},{0.0,0}};
//define known muskingum routed vals, from example 9.3.2
//double[] vals = new double[16] { 0, 272, 1178, 2701, 4455, 4886, 4020, 3009, 2359, 1851, 1350, 918, 610, 276, 16, 1 };
//Queue<double> KnownAnswers = new Queue<double>(vals);
//loop over all hydrograph values
for (int j = 0; j <= 10000 - 1; j++)
{
Console.WriteLine("TimeStep " + Convert.ToString(j + 1));
double[] Array = new double[2];
//for (int k = 0; k <= p.GetLength(1) - 1; k++)
//{
// //create array to hold the input hydrograph values for this timestep
// Array[k] = p[j, k];
//}
Array[0] = 1;
Array[1] = 1;
//Save input values to the Simple Model Wrappers DataTable using "SetValues"
IValueSet Precip = new ScalarSet(Array);
Routing.SetValues("Excess Rainfall", "Smith Branch", Precip);
//Call Perform Time Step within the Muskingum routing component.
Routing.PerformTimeStep();
//Retrieve the calculated outflow from the Simple Model Wrappers DataTable, by calling GetValues()
ScalarSet Outflow = (ScalarSet)Routing.GetValues("Streamflow", "Smith Branch");
//Write the output results to the screen
for (int i = 0; i <= Outflow.Count - 1; i++)
{
Console.WriteLine("Outlet: " + i.ToString() + "\t Outflow [cfs]: " + Outflow.data[i].ToString() + "\n");
}
//Check to see if the computed values equal the known ones
//Assert.IsTrue(Math.Round(Outflow.data[1], 0) == KnownAnswers.Dequeue());
}
//Teardown the component
Routing.Finish();
}
public void Initialize()
{
Debug.WriteLine("\n\n---------------------------------------------------");
Debug.WriteLine("Running the 'Initialize' Test");
Debug.WriteLine("---------------------------------------------------");
//create instance of the Muskingum class
edu.SC.Models.Routing.Muskingum Routing = new edu.SC.Models.Routing.Muskingum();
//define input arguments
System.Collections.Hashtable args = new System.Collections.Hashtable();
args.Add("ConfigFile", "ConfigTest_2reaches.xml");
//Call initialize within the muskingum component. If everything executes successfully, this
//--> test method should pass here.
Routing.Initialize(args);
Debug.WriteLine("Initialize has completed successfully");
//Teardown the component
Routing.Finish();
}
public void PTS_3ReachNetwork()
{
Debug.WriteLine("\n\n---------------------------------------------------");
Debug.WriteLine("Testing the Perform Time Step Method for 3 Reaches");
Debug.WriteLine("---------------------------------------------------");
//initialize the component
edu.SC.Models.Routing.Muskingum Routing = new edu.SC.Models.Routing.Muskingum();
System.Collections.Hashtable args = new System.Collections.Hashtable();
args.Add("ConfigFile", "ConfigTest_3reaches.xml");
Routing.Initialize(args);
//Begin Perform Time Step Procedures
//define the input hydrograph.
double[,] p = new double[13, 3] {
{ 0, 0, 0 },
{ 0, 0.235733, 0 },
{ 0, 0.711618, 0 },
{ 0.438576, 1.377104, 0.174021 },
{ 3.081694, 2.348495, 4.341684 },
{ 8.084392, 3.419044, 13.786119 },
{ 13.492319, 4.193174, 21.125838 },
{ 15.109068, 4.572254, 20.66142 },
{ 13.640105, 4.594348, 15.781394 },
{ 10.458048, 4.369926, 9.388822 },
{ 6.77479, 3.962268, 5.85001 },
{ 4.549214, 3.452857, 3.737803 },
{ 3.124193, 2.795561, 2.306243 }
};
//define known muskingum routed vals, from example 9.3.2
double[] vals = new double[13] {
0.0,
-0.0,
0.0,
0.3,
4.8,
15.3,
25.2,
28.6,
27.3,
23.1,
20.2,
17.2,
14.3
};
Queue <double> KnownAnswers = new Queue <double>(vals);
//loop over all hydrograph values
for (int j = 0; j <= p.GetLength(0) - 1; j++)
{
Console.WriteLine("TimeStep " + Convert.ToString(j + 1));
double[] Array = new double[p.GetLength(1)];
for (int k = 0; k <= p.GetLength(1) - 1; k++)
{
//create array to hold the input hydrograph values for this timestep
Array[k] = p[j, k];
}
//Save input values to the Simple Model Wrappers DataTable using "SetValues"
IValueSet Precip = new ScalarSet(Array);
Routing.SetValues("Excess Rainfall", "Smith Branch", Precip);
//Call Perform Time Step within the Muskingum routing component.
Routing.PerformTimeStep();
//Retrieve the calculated outflow from the Simple Model Wrappers DataTable, by calling GetValues()
ScalarSet Outflow = (ScalarSet)Routing.GetValues("Streamflow", "Smith Branch");
//Write the output results to the screen
for (int i = 0; i <= Outflow.Count - 1; i++)
{
Console.WriteLine("Outlet: " + i.ToString() + "\t Outflow [cfs]: " + Outflow.data[i].ToString() + "\n");
}
//Check to see if the computed values equal the known ones
Assert.IsTrue(Math.Round(Outflow.data[0], 1) == KnownAnswers.Dequeue());
}
Routing.Finish();
}
public Muskingum_LC()
{
_engineApiAccess = new Muskingum();
}
protected override void SetEngineApiAccess()
{
_engineApiAccess = new Muskingum();
}
