public void DCTestCircuit_SolveX()
{
var builder = Vector <double> .Build;
var testCkt = DCTestCircuit();
double[] shouldArr = { -8, 24, 20, -4, 1 };
var should = builder.DenseOfArray(shouldArr);
Assert.True(Precision.AlmostEqual(DCAnalysis.SolveX(testCkt), should, 8));
}
public void DCTestCircuit_GenZ()
{
var builder = Vector <double> .Build;
var testCkt = DCTestCircuit();
double[] shouldArr = { 0, 0, 0, 32, 20 };
var should = builder.DenseOfArray(shouldArr);
Assert.True(Precision.AlmostEqual(DCAnalysis.GenZ(testCkt), should, 8));
}
public void DCTestCircuit_GenA()
{
var builder = Matrix <double> .Build;
var testCkt = DCTestCircuit();
double[,] shouldArr =
{
{ 0.5, 0, 0, -1, 0 },
{ 0, 0.375, -0.25, 1, 0 },
{ 0, -0.25, 0.25, 0, 1 },
{ -1, 1, 0, 0, 0 },
{ 0, 0, 1, 0, 0 },
};
var should = builder.DenseOfArray(shouldArr);
Assert.True(Precision.AlmostEqual(DCAnalysis.GenA(testCkt), should, 8));
}
static void Main(string[] args)
{
int i = 2;
switch (i)
{
case 0:
cir.ReadCircuit("circuits/RLcharge.net");
cir2 = (Circuit)cir.Clone();
DCSolver.Optimize(cir2);
DCAnalysis ac0 = (DCAnalysis)cir2.Setup[0];
DCSolver solver = (DCSolver)ac0.Solver;
//solver.Solve(cir2, );
cir2.Solve();
solver.ExportToCSV("e:/Test.csv");
break;
case 1:
cir.ReadCircuit("circuits/testidc.net");
cir2 = (Circuit)cir.Clone();
DCSolver.Optimize(cir2);
DCAnalysis ac3 = (DCAnalysis)cir2.Setup[0];
DCSolver solver3 = (DCSolver)ac3.Solver;
//solver.Solve(cir2, );
cir2.Solve();
solver3.ExportToCSV("e:/Test.csv");
break;
case 2:
cir.ReadCircuit("circuits/derivador.net");
//cir.ReadCircuit("RCL.net");
cir2 = (Circuit)cir.Clone();
cir2.Setup.RemoveAt(0);
ACAnalysis ac = new ACAnalysis();
cir2.Setup.Add(ac);
ACSweepSolver.Optimize(cir2);
cir2.Solve();
ACSweepSolver sol = (ACSweepSolver)ac.Solver;
sol.ExportToCSV("ACSweep.csv");
break;
case 3:
//cir.ReadCircuit("derivador.net");
cir.ReadCircuit("circuits/RLC.net");
cir2 = (Circuit)cir.Clone();
cir2.Setup.RemoveAt(0);
ComplexPlainAnalysis ac1 = new ComplexPlainAnalysis();
cir2.Setup.Add(ac1);
ACSweepSolver.Optimize(cir2);
cir2.Solve();
sol1 = (ComplexPlainSolver)ac1.Solver;
sol1.SelectedNode = sol1.CurrentCircuit.Nodes["out"];
// sol1.
sol1.ExportToCSV("e:/plain.csv");
Bitmap bmp = FileUtils.DrawImage(func, ac1.Points, ac1.Points);
bmp.Save("e:/plain.bmp");
break;
case 4:
cir.ReadCircuit("circuits/RCL.net");
//cir.ReadCircuit("RCcharge.net");
cir2 = (Circuit)cir.Clone();
cir2.Setup.RemoveAt(0);
TransientAnalysis ac5 = new TransientAnalysis();
ac5.Step = "10n";
cir2.Setup.Add(ac5);
TransientSolver sol5 = (TransientSolver)ac5.Solver;
TransientSolver.Optimize(cir2);
cir2.Solve();
sol5.ExportToCSV("e:/time.csv");
break;
case 5:
cir.ReadCircuit("circuits/vsingain.net");
//cir.ReadCircuit("RCcharge.net");
cir2 = (Circuit)cir.Clone();
cir2.Setup.RemoveAt(0);
TransientAnalysis ac6 = new TransientAnalysis();
ac6.Step = "100n";
cir2.Setup.Add(ac6);
TransientSolver sol6 = (TransientSolver)ac6.Solver;
TransientSolver.Optimize(cir2);
cir2.Solve();
sol6.ExportToCSV("e:/time.csv");
break;
default:
break;
}
Console.ReadKey();
}
