public SolveStepViewModel(SolidMechanicsModel model)
:base("Solve", model)
{
SolveCommand = new RelayCommand(Solve);
Results = new ObservableCollection<INumericalResult>();
GridResults = new ObservableCollection<ResultItem>();
}
public void SaveTest()
{
Shape shape = new Rectangle(10, 20); // TODO: Initialize to an appropriate value
SolidMechanicsModel target = new SolidMechanicsModel(shape); // TODO: Initialize to an appropriate value
string filename = "temp.dat"; // TODO: Initialize to an appropriate value
target.Save(filename);
//Assert.Inconclusive("A method that does not return a value cannot be verified.");
}
public override void RefreshProperties(SolidMechanicsModel model)
{
SolidMechanicsModel2D m = model as SolidMechanicsModel2D;
if (m != null)
{
VerticalElements = m.VerticalElements;
}
HorizontalElements = model.HorizontalElements;
}
public void InitializeSteps()
{
model = createModel();
Steps = getSteps(model);
SelectStep(Steps[0]);
foreach (WizardStepViewModelBase step in Steps) {
step.PropertyChanged += step_PropertyChanged;
}
}
public override void RefreshProperties(SolidMechanicsModel model)
{
Rectangle rectangle = model.Model.Shape as Rectangle;
if (rectangle != null)
{
Height = rectangle.Height;
Width = rectangle.Width;
}
}
public override void RefreshProperties(SolidMechanicsModel model)
{
base.RefreshProperties(model);
CylindricalPlate plate = model.Model.Shape as CylindricalPlate;
if (plate != null)
{
Curvature = plate.Curvature;
}
}
public void SetBoundaryConditions(SolidMechanicsModel model)
{
Edges = new ObservableCollection<EdgeViewModel>();
int i = 1;
foreach (Edge edge in model.Model.Shape.Edges)
{
Edges.Add(new EdgeViewModel(i, edge, model.Model.BoundaryConditions[edge]));
i++;
}
}
private void SetPointConditions(SolidMechanicsModel model)
{
Points = new ObservableCollection<PointViewModel>();
int i = 1;
foreach (Point point in model.Model.Shape.Points)
{
Points.Add(new PointViewModel(i, point, model.Model.PointConditions[point]));
i++;
}
}
public override void RefreshProperties(SolidMechanicsModel model)
{
solidMechanicsModel.Model.Shape.Edges.Clear();
solidMechanicsModel.Model.BoundaryConditions.Clear();
foreach (Edge edge in model.Model.Shape.Edges)
{
solidMechanicsModel.Model.Shape.Edges.Add(edge);
solidMechanicsModel.Model.BoundaryConditions.Add(edge, model.Model.BoundaryConditions[edge]);
}
SetBoundaryConditions(model);
CurrentEdge = Edges[0];
}
public override void RefreshProperties(SolidMechanicsModel model)
{
solidMechanicsModel.Model.Shape.Points.Clear();
solidMechanicsModel.Model.PointConditions.Clear();
foreach (Point point in model.Model.Shape.Points)
{
solidMechanicsModel.Model.Shape.Points.Add(point);
solidMechanicsModel.Model.PointConditions.Add(point, model.Model.PointConditions[point]);
}
SetPointConditions(solidMechanicsModel);
CurrentPoint = Points[0];
}
protected override ObservableCollection<WizardStepViewModelBase> getSteps(SolidMechanicsModel m)
{
ObservableCollection<WizardStepViewModelBase> steps = new ObservableCollection<WizardStepViewModelBase>();
steps.Add(new CylindricalShapeStepViewModel(m));
steps.Add(new MaterialStepViewModel(m));
steps.Add(new PointSettingsStepViewModel(m));
steps.Add(new BoundarySettingsStepViewModel(m));
steps.Add(new InitialSettingsStepViewModel(m));
steps.Add(new MeshSettingsStepViewModel(m));
steps.Add(new SolveStepViewModel(m));
return steps;
}
public PointSettingsStepViewModel(SolidMechanicsModel model)
: base("Point Settings", model)
{
SetPointConditions(solidMechanicsModel);
currentPoint = Points[0];
}
public BoundarySettingsStepViewModel(SolidMechanicsModel model):base("Boundary Settings", model)
{
SetBoundaryConditions(solidMechanicsModel);
currentEdge = Edges[0];
}
public override void RefreshProperties(SolidMechanicsModel model)
{
MaxAmplitude = model.MaxAmplitude;
}
public InitialSettingsStepViewModel(SolidMechanicsModel model)
: base("Initial Settings", model)
{
}
public CylindricalShapeStepViewModel(SolidMechanicsModel model)
: base(model)
{
}
public override void RefreshProperties(SolidMechanicsModel model)
{
HorizontalElements = model.HorizontalElements;
}
public override void RefreshProperties(SolidMechanicsModel model)
{
Rho = model.Model.Material.Rho;
PoissonCoef = model.Model.Material.v[0, 0];
YoungModulus = model.Model.Material.E[0];
}
public ShapeStepViewModel(SolidMechanicsModel model):base("Shape", model)
{
rectangle = solidMechanicsModel.Model.Shape as Rectangle;
isValid = rectangle != null;
}
public abstract void RefreshProperties(SolidMechanicsModel model);
protected WizardStepViewModelBase(string displayName, SolidMechanicsModel model)
{
this.displayName = displayName;
solidMechanicsModel = model;
Figures = new ObservableCollection<Shape>();
}
public RectangleMeshSettingsStepViewModel(SolidMechanicsModel model)
: base("Mesh Settings", model)
{ }
protected abstract ObservableCollection<WizardStepViewModelBase> getSteps(SolidMechanicsModel m);
public MaterialStepViewModel(SolidMechanicsModel model):base("Material", model)
{
}
public virtual void Copy(SolidMechanicsModel model)
{
HorizontalElements = model.HorizontalElements;
MaxAmplitude = model.MaxAmplitude;
Model.Copy(model.Model);
}
public override void RefreshProperties(SolidMechanicsModel model)
{
}
public virtual void Copy(SolidMechanicsModel model)
{
HorizontalElements = model.HorizontalElements;
MaxAmplitude = model.MaxAmplitude;
Model.Copy(model.Model);
}
