public void SolveTest()
{
double error = 0.001;
Rectangle rectangle = new Rectangle(0.1, 1);
Model model = new Model(Material.Aluminium(), rectangle); // TODO: Initialize to an appropriate value
model.PointConditions[rectangle.Points[2]].Type = BoundaryConditionsType.Static;
model.PointConditions[rectangle.Points[3]].Type = BoundaryConditionsType.Static;
Mesh mesh = new RectangularMesh(rectangle, 10, 4); // TODO: Initialize to an appropriate value
FreeVibrationsLinearSolver solver = new FreeVibrationsLinearSolver(model, mesh, error); // TODO: Initialize to an appropriate value
IResult expected = null; // TODO: Initialize to an appropriate value
IResult actual = null;
actual = solver.Solve(1).FirstOrDefault();
Assert.AreEqual(expected, actual);
Assert.Inconclusive("Verify the correctness of this test method.");
}
public void Solve()
{
Rectangle rectangle = solidMechanicsModel.Model.Shape as Rectangle;
if (rectangle != null)
{
SolidMechanicsModel2D smm = solidMechanicsModel as SolidMechanicsModel2D;
if (smm != null)
{
RectangularMesh mesh = new RectangularMesh(rectangle, smm.VerticalElements, smm.HorizontalElements);
pointsForGrid = mesh.GetPointsForResult();
IEnumerable<INumericalResult> results = null;
Stopwatch sw = new Stopwatch();
sw.Start();
Task taskSolver = Task.Factory.StartNew(() =>
{
//Solver solver = new FreeVibrationsLinearSolver(solidMechanicsModel.Model, mesh, error, solidMechanicsModel.MaxAmplitude);
Solver solver = new FreeVibrationsLinearSolver(smm.Model, mesh, error, smm.MaxAmplitude);
/*Solver initSolver = new FreeVibrationsLinearSolver(_solidMechanicsModel.Model, mesh, _error);
IEnumerable<INumericalResult> initResults = initSolver.Solve(1);
EigenValuesNumericalResult res = initResults.First() as EigenValuesNumericalResult;*/
//Solver solver = new FreeVibrationsNonLinearSolver2(_solidMechanicsModel.Model, mesh, _error, res.U, 2, 50);
//Solver solver = new NewmarkVibrationNonLinearSolver(_solidMechanicsModel.Model, mesh, _error, res.U, 5, 50);
//Solver solver = new StationaryNonlinear2DSolver(_solidMechanicsModel.Model, mesh, _error, 20);
//IResult analiticalResult = new AnaliticalResultRectangleWithOneSideFixed(_solidMechanicsModel.Model);
results = solver.Solve(maxResults);
});
sw.Stop();
TimeElapsed = sw.Elapsed;
Task.WaitAll(taskSolver);
Application.Current.Dispatcher.BeginInvoke(new Action(() =>
{
Results.Clear();
foreach (INumericalResult result in results)
{
Results.Add(result);
}
}));
}
}
}
public void SolveSimpleTest()
{
double error = 0.001;
Rectangle rectangle = new Rectangle(1, 1);
Model model = new Model(Material.Aluminium(), rectangle);
model.PointConditions[rectangle.Points[2]].Type = BoundaryConditionsType.Static;
model.PointConditions[rectangle.Points[3]].Type = BoundaryConditionsType.Static;
//model.BoundaryConditions[rectangle.Edges[0]].Type = BoundaryConditionsType.Static;
//model.BoundaryConditions[rectangle.Edges[2]].Type = BoundaryConditionsType.Static;
Mesh mesh = new RectangularMesh(rectangle, 2, 2);
FreeVibrationsLinearSolver solver = new FreeVibrationsLinearSolver(model, mesh, error);
IResult expected = null; // TODO: Initialize to an appropriate value
IResult actual = solver.Solve(1).FirstOrDefault();
IEnumerable<Point> points = mesh.GetPointsForResult();
ResultHelper.IsResultsEqual(points, expected, actual, 0, error);
Assert.AreEqual(true, false);
}
