private string getLineDeformedInfo(LineElement l, float xPos)
{
string angleRad = "Rad";
string distance = units.UnitName(Canguro.Model.UnitSystem.Units.Distance);
float[] deflection2;
float[] deflection3;
bool lastUndoEnabled = model.Undo.Enabled;
bool lastUnitSystemEnabled = Model.UnitSystem.UnitSystemsManager.Instance.Enabled;
try
{
if (model.IsLocked)
model.Undo.Enabled = false;
Model.UnitSystem.UnitSystemsManager.Instance.Enabled = false;
Analysis.LineDeformationCalculator calc = new Canguro.Analysis.LineDeformationCalculator();
deflection2 = calc.GetCurvedPoint(l, model.Results.ActiveCase.AbstractCase, Canguro.Analysis.LineDeformationCalculator.DeformationAxis.Local2, xPos);
deflection3 = calc.GetCurvedPoint(l, model.Results.ActiveCase.AbstractCase, Canguro.Analysis.LineDeformationCalculator.DeformationAxis.Local3, xPos);
}
finally
{
Model.UnitSystem.UnitSystemsManager.Instance.Enabled = lastUnitSystemEnabled;
model.Undo.Enabled = lastUndoEnabled;
}
return "\n U2: " + units.FromInternational(deflection2[1], Canguro.Model.UnitSystem.Units.Distance).ToString("G3") + distance + ", U3: " + units.FromInternational(deflection3[1], Canguro.Model.UnitSystem.Units.Distance).ToString("G3") + distance +
"\n R3: " + units.FromInternational(deflection2[2], Canguro.Model.UnitSystem.Units.Angle).ToString("G3") + angleRad + ", R2: " + units.FromInternational(deflection3[2], Canguro.Model.UnitSystem.Units.Angle).ToString("G3") + angleRad;
}