static public void TestCircuitModel2()
{
Stream StdoutStream = Console.OpenStandardOutput();
StreamWriter Stdout = new StreamWriter(StdoutStream);
Stdout.WriteLine("\tTest circuit model 2");
CircuitModelAC model = new CircuitModelAC();
int v1 = model.AddVoltageSource("g", "0", 20412.41f, 0.0f, 60.0f);
int r1 = model.AddResistor("0", "1", 600.0f);
int r2 = model.AddInductor("1", "2", 20.0f);
int r3 = model.AddResistor("2", "3", 300.0f);
int rg = model.AddInductor("3", "g", 6.0f);
model.AddGround("g");
model.AddVoltageOutput("g", "2");
model.AddCurrentOutput(v1);
model.AddCurrentOutput(r1);
model.AddCurrentOutput(r2);
model.AddCurrentOutput(r3);
model.AddCurrentOutput(rg);
//Stdout.WriteLine(model.TestEquationGeneration(true));
try
{
List <string> solution = model.Solve();
foreach (var s in solution)
{
Stdout.WriteLine(s);
}
}
catch (CompilerException exc)
{
Stdout.WriteLine(exc.Message);
var errors = exc.Errors;
foreach (var error in errors)
{
Stdout.WriteLine(error.Message + " Line: " + error.Line + " Position: " + error.Position);
}
}
catch (Exception exc)
{
Stdout.WriteLine(exc.Message);
}
Stdout.WriteLine("");
Stdout.Flush();
Stdout.Close();
}
static public void TestCircuitModel()
{
Stream StdoutStream = Console.OpenStandardOutput();
StreamWriter Stdout = new StreamWriter(StdoutStream);
Stdout.WriteLine("\tTest circuit model");
CircuitModelAC model = new CircuitModelAC();
int v = model.AddVoltageSource("a1", "a2", 10.0f, 0.0f, 50.0f);
model.AddTransformer("a1", "a2", "a3", "a4", 2.0f);
int r = model.AddResistor("a3", "a4", 2.0f);
model.AddGround("a1");
model.AddGround("a3");
model.AddVoltageOutput("a1", "a2");
model.AddVoltageOutput("a3", "a4");
model.AddCurrentOutput(v);
model.AddCurrentOutput(r);
/*model.addVoltageSource("a2", "a1", 10.0f, 60.0f, 50.0f);
* model.addVoltageSource("a1", "a3", 10.0f, 0.0f, 50.0f);
* model.addCapacitor("a1", "a3", 0.1f);
* model.addResistor("a1", "a4", 15.0f);
* model.addResistor("a4", "a2", 4.0f);
* model.addInductor("a4", "a3", 5.0f);
* model.addGround("a2");
* model.addVoltageOutput("a2","a3");
* model.addVoltageOutput("a2", "a4");
* model.addVoltageOutput("a2", "a1");*/
Stdout.WriteLine(model.TestEquationGeneration());
try
{
List <string> solution = model.Solve();
foreach (var s in solution)
{
Stdout.WriteLine(s);
}
}
catch (CompilerException exc)
{
Stdout.WriteLine(exc.Message);
var errors = exc.Errors;
foreach (var error in errors)
{
Stdout.WriteLine(error.Message + " Line: " + error.Line + " Position: " + error.Position);
}
}
catch (Exception exc)
{
Stdout.WriteLine(exc.Message);
}
Stdout.WriteLine("");
Stdout.Flush();
Stdout.Close();
}
static public void TestCircuitEquationGeneration()
{
Stream StdoutStream = Console.OpenStandardOutput();
StreamWriter Stdout = new StreamWriter(StdoutStream);
Stdout.WriteLine("\t Test circuit equation generation");
try
{
CircuitModelAC model = new CircuitModelAC();
model.AddVoltageSource("a2", "a1", 10.0f, 50.0f, 10.0f);
model.AddVoltageSource("a1", "a3", 10.0f, 50.0f, 0.5f);
model.AddResistor("a1", "a3", 5.0f);
model.AddResistor("a1", "a4", 15.0f);
model.AddResistor("a4", "a2", 4.0f);
model.AddGround("a2");
Stdout.WriteLine("Equations: ");
string equations = model.TestEquationGeneration();
Stdout.WriteLine(equations);
}
catch (CompilerException exc)
{
Stdout.WriteLine(exc.Message);
var errors = exc.Errors;
foreach (var error in errors)
{
Stdout.WriteLine(error.Message + " Line: " + error.Line + " Position: " + error.Position);
}
}
catch (Exception exc)
{
Stdout.WriteLine(exc.Message);
}
Stdout.WriteLine("");
Stdout.Flush();
Stdout.Close();
//Environment.NewLine
}