static void testfunction()
{
Console.WriteLine("Press enter to begin, or enter \"c\" to clear repos.");
if (Console.ReadLine() == "c")
{
RepoManagement.ClearRepo(Paths.DistributionRepo, Paths.ImageRepo);
}
DateTime then = DateTime.Now;
Console.WriteLine("Solving...");
double L = 10;
double H = 10;
int n = 38;
RBounds2D bounds = new RBounds2D(0, L, 0, H);
NCGrid_Distribution dist = new NCGrid_Distribution(bounds, n, n);
BoundaryConditions conditions = new BoundaryConditions(bounds, n, n, BoundaryConditions.BoundaryConditionType.Dirichlet);
double dx = L / (n - 1);
double max = 5;
string fxn = string.Format("{0}*Sin({1}*x/{2})*(Exp({1}*y/{2}) - Exp(-1*{1}*y/{2}))/(Exp({1}*{3}/{2}) - Exp(-1*{1}*{3}/{2}))", max, Math.PI, L, H);
conditions.SetConstant(0, BoundaryConditions.Direction.Negative_X);
conditions.SetConstant(0, BoundaryConditions.Direction.Negative_Y);
conditions.SetConstant(0, BoundaryConditions.Direction.Positive_Y);
for (int i = 0; i < n; i++)
{
double x = i * dx;
double z = max * Math.Sin(Math.PI * x / L);
conditions[i, BoundaryConditions.Direction.Positive_Y] = z;
}
int solcount = 50;
double[] errors = new double[solcount];
double[] iteration = new double[solcount];
DistributionSketchSettings S = DistributionSketchSettings.Fancy();
S.SetFigureTitle("Temperature Distribution");
for (int i = 0; i < solcount; i++)
{
Console.WriteLine(i.ToString() + " of " + solcount.ToString() + " iterations processed.");
iteration[i] = i;
BVPLinear2D problem = new BVPLinear2D(conditions, LinearOperatorOrder2.Laplace, dist);
problem.EnableConsoleOutput();
NCGrid_Distribution soln = problem.Solve(Matrix.SystemSolvingScheme.Kaczmarz);
NCGrid_Distribution analytic = ExactFunctionGeneratorVB2D.GenerateFunctionToGrid(fxn, soln);
soln.ApplyMeshMorphGA(15);
errors[i] = ErrorEstimation.NormDifference(soln, analytic);
string title = "iterative-" + i.ToString();
soln.WriteToFile(title);
DistributionSketch2D sketch = new DistributionSketch2D(soln, S);
dist = soln.Clone();
sketch.CreateSketch(true);
sketch.SaveImage(title + "-plot", false);
}
List <string> filestuff = new List <string>();
for (int i = 0; i < iteration.Length; i++)
{
filestuff.Add(iteration[i].ToString() + "," + errors[i].ToString());
}
File.WriteAllLines(@"C:\Users\Will\Desktop\Folders\MATH435\repo\curves-1d\errors-temp.csv", filestuff.ToArray());
Console.WriteLine("Done.");
Console.ReadLine();
}
static void testfunction3()
{
Console.WriteLine("Press enter to begin, or enter \"c\" to clear repos.");
if (Console.ReadLine() == "c")
{
RepoManagement.ClearRepo(Paths.DistributionRepo, Paths.ImageRepo);
}
DateTime then = DateTime.Now;
Console.WriteLine("Solving...");
double L = 10;
double H = 10;
int n = 26;
RBounds2D bounds = new RBounds2D(0, L, 0, H);
NCGrid_Distribution dist = new NCGrid_Distribution(bounds, n, n);
BoundaryConditions conditions = new BoundaryConditions(bounds, n, n, BoundaryConditions.BoundaryConditionType.Dirichlet);
double dx = L / (n - 1);
double omega = 4;
double max = 8;
conditions.SetConstant(0, BoundaryConditions.Direction.Negative_X);
conditions.SetConstant(0, BoundaryConditions.Direction.Negative_Y);
for (int i = 0; i < n; i++)
{
double x = i * dx;
double y = i * dx;
double ybound = max / (1 + Math.Exp(-1 * (omega * x / L)));
double xbound = max / (1 + Math.Exp(-1 * (omega * y / H)));
conditions[i, BoundaryConditions.Direction.Positive_Y] = ybound;
conditions[i, BoundaryConditions.Direction.Positive_X] = xbound;
}
int solcount = 15;
LinearOperatorOrder2 op = LinearOperatorOrder2.Laplace;
DistributionSketchSettings S = DistributionSketchSettings.Fancy();
S.SetFigureTitle("Double Logistic Boundary");
for (int i = 0; i < solcount; i++)
{
Console.WriteLine(i.ToString() + " of " + solcount.ToString() + " iterations processed.");
BVPLinear2D problem = new BVPLinear2D(conditions, op, dist);
problem.EnableConsoleOutput();
NCGrid_Distribution soln = problem.SolveSRDD();
string title = "iterative-" + i.ToString();
soln.WriteToFile(title);
DistributionSketch2D sketch = new DistributionSketch2D(soln, S);
dist = soln.Clone();
sketch.CreateSketch(true);
sketch.SaveImage(title + "-plot", false);
//dist.ApplyMeshMorphGA(2, 0.0019);
Random R = new Random();
for (int h = 1; h < dist.Xcount - 1; h++)
{
for (int k = 1; k < dist.Ycount - 1; k++)
{
double ddx = (0.5 - R.NextDouble()) * dx * 0.6;
double ddy = (0.5 - R.NextDouble()) * dx * 0.6;
Vector3 move = new Vector3(ddx, ddy, 0);
dist[h, k] = dist[h, k] + move;
}
}
}
Console.WriteLine("Done.");
Console.ReadLine();
}