public override void SolveInstance(IGH_DataAccess DA, out string msg, out GH_RuntimeMessageLevel level)
{
msg = "";
level = GH_RuntimeMessageLevel.Blank;
//var line = new LineCurve();
Brep inSrfc = null;
var noIndex = 0;
var comment = "";
var rfSrfc = new RFSurface();
var inRFEM = new GH_RFEM();
var rfEdges = new List <RFLine>();
var mod = false;
var del = false;
var boundList = "";
var geomType = 0;
var stiffType = 0;
var thickType = 0;
var thick = 0.0;
var mat = 0;
var ecc = 0.0;
//int intPoints = 4;
//int newNo = 0;
RFEM.SurfaceAxes axes = new RFEM.SurfaceAxes();
var axesDirType = 0;
var axesLines = 0;
Point3d pt1 = new Point3d();
Point3d pt2 = new Point3d();
int csNo = 0;
var rot = 0.0;
if (DA.GetData(13, ref inRFEM))
{
rfSrfc = new RFSurface((RFSurface)inRFEM.Value);
if (DA.GetData(0, ref inSrfc))
{
Component_RFSurface.SetGeometry(inSrfc, ref rfSrfc);
}
if (DA.GetData(6, ref geomType))
{
rfSrfc.GeometryType = (SurfaceGeometryType)geomType;
if (rfSrfc.GeometryType == SurfaceGeometryType.UnknownGeometryType)
{
msg = "Surface Geometry Type not supported. ";
level = GH_RuntimeMessageLevel.Warning;
return;
}
}
if (DA.GetData(2, ref mat))
{
rfSrfc.MaterialNo = mat;
}
if (DA.GetData(3, ref thick))
{
rfSrfc.Thickness = thick;
}
}
else if (DA.GetData(0, ref inSrfc))
{
if (!(DA.GetData(2, ref mat) && DA.GetData(3, ref thick)))
{
msg = "Insufficient input parameters. Provide Material Number and Surface thickness. ";
level = GH_RuntimeMessageLevel.Warning;
return;
}
if (inSrfc.Edges.Select(x => x.GetLength()).Min() <= 0.001)
{
level = GH_RuntimeMessageLevel.Warning;
msg = "Boundary lines are too short. It may cause import errors.";
}
else
{
rfSrfc.MaterialNo = mat;
rfSrfc.Thickness = thick;
}
Component_RFSurface.SetGeometry(inSrfc, ref rfSrfc);
if (DA.GetData(6, ref geomType))
{
rfSrfc.GeometryType = (SurfaceGeometryType)geomType;
if (rfSrfc.GeometryType == SurfaceGeometryType.NurbsSurfaceType)
{
if (inSrfc.Edges.Count != 4)
{
msg = "Provide a valide NURBS Surface with 4 edge curves. ";
level = GH_RuntimeMessageLevel.Warning;
return;
}
Component_RFSurface.SetGeometryNURBS(inSrfc, ref rfSrfc);
}
if (rfSrfc.GeometryType == SurfaceGeometryType.UnknownGeometryType)
{
msg = "Surface Geometry Type not supported. ";
level = GH_RuntimeMessageLevel.Warning;
return;
}
}
}
else if (DA.GetData(5, ref boundList))
{
rfSrfc.BoundaryLineList = boundList;
if (!(DA.GetData(2, ref mat) && DA.GetData(3, ref thick)))
{
msg = "Insufficient input parameters. Provide Material Number and Surface thickness. ";
level = GH_RuntimeMessageLevel.Warning;
return;
}
else
{
rfSrfc.MaterialNo = mat;
rfSrfc.Thickness = thick;
}
if (DA.GetData(6, ref geomType))
{
rfSrfc.GeometryType = (SurfaceGeometryType)geomType;
if (rfSrfc.GeometryType == SurfaceGeometryType.UnknownGeometryType || (rfSrfc.GeometryType != SurfaceGeometryType.PlaneSurfaceType && rfSrfc.GeometryType != SurfaceGeometryType.QuadrangleSurfaceType))
{
msg = "Surface Geometry Type not supported. ";
level = GH_RuntimeMessageLevel.Warning;
return;
}
}
}
else
{
msg = "Insufficient input parameters. Provide either Input Surface shape, Boundary Lines List or existing RFSurface Object. ";
level = GH_RuntimeMessageLevel.Warning;
return;
}
if (DA.GetData(14, ref mod))
{
rfSrfc.ToModify = mod;
}
if (DA.GetData(15, ref del))
{
rfSrfc.ToDelete = del;
}
if (DA.GetData(1, ref noIndex))
{
rfSrfc.No = noIndex;
}
if (DA.GetData(4, ref comment))
{
rfSrfc.Comment = comment;
}
if (DA.GetData(5, ref boundList))
{
rfSrfc.BoundaryLineList = boundList;
}
if (DA.GetData(7, ref thickType))
{
rfSrfc.ThicknessType = (SurfaceThicknessType)thickType;
if (rfSrfc.ThicknessType == SurfaceThicknessType.UnknownThicknessType)
{
msg = "Surface Thickness Type not supported. ";
level = GH_RuntimeMessageLevel.Warning;
return;
}
}
if (DA.GetData(8, ref stiffType))
{
rfSrfc.StiffnessType = (SurfaceStiffnessType)stiffType;
if (rfSrfc.StiffnessType == SurfaceStiffnessType.UnknownStiffnessType)
{
msg = "Taper Shape Type not supported. ";
level = GH_RuntimeMessageLevel.Warning;
return;
}
}
if (DA.GetData(9, ref ecc))
{
rfSrfc.Eccentricity = ecc;
}
if (DA.GetData(10, ref axesDirType))
{
axes.SurfaceAxesDirection = (SurfaceAxesDirection)axesDirType;
switch (axes.SurfaceAxesDirection)
{
case SurfaceAxesDirection.UnknownSurfaceAxesDirection:
msg = "Axes direction not supported.";
level = GH_RuntimeMessageLevel.Warning;
return;
case SurfaceAxesDirection.StandardSurfaceAxesDirection:
break;
case SurfaceAxesDirection.IdenticalToAxesForInput:
msg = "Axes are always paralell to axes for input.";
level = GH_RuntimeMessageLevel.Warning;
break;
case SurfaceAxesDirection.SurfaceAxesParallelToGlobalCS:
msg = "Axes direction not supported.";
level = GH_RuntimeMessageLevel.Warning;
return;
case SurfaceAxesDirection.SurfaceAxesParallelToUserCS:
msg = "Axes direction not supported.";
level = GH_RuntimeMessageLevel.Warning;
return;
case SurfaceAxesDirection.SurfaceAngularRotation:
if (!(DA.GetData(12, ref rot)))
{
msg = "Insufficient input parameters. Provide Angular rotation.";
level = GH_RuntimeMessageLevel.Warning;
return;
}
axes.Rotation = rot;
break;
case SurfaceAxesDirection.SurfaceAxisXDirectToPoint:
msg = "Axes direction not supported.";
level = GH_RuntimeMessageLevel.Warning;
return;
case SurfaceAxesDirection.SurfaceAxisYDirectToPoint:
msg = "Axes direction not supported.";
level = GH_RuntimeMessageLevel.Warning;
return;
case SurfaceAxesDirection.SurfaceAxisXParallelToLine:
if (!DA.GetData(11, ref axesLines))
{
msg = "Insufficient input parameters. Provide Line.";
level = GH_RuntimeMessageLevel.Warning;
return;
}
axes.AxesLineList = axesLines.ToString();
break;
case SurfaceAxesDirection.SurfaceAxisYParallelToLine:
if (!DA.GetData(11, ref axesLines))
{
msg = "Insufficient input parameters. Provide Line.";
level = GH_RuntimeMessageLevel.Warning;
return;
}
axes.AxesLineList = axesLines.ToString();
break;
}
rfSrfc.SurfaceAxes = axes;
}
else if (DA.GetData(12, ref rot) || DA.GetData(11, ref axesLines))
{
msg = "Insufficient input parameters. Provide Axes Direction.";
level = GH_RuntimeMessageLevel.Warning;
return;
}
DA.SetData(0, rfSrfc);
}
public override void SolveInstance(IGH_DataAccess DA, out string msg, out GH_RuntimeMessageLevel level)
{
msg = "";
level = GH_RuntimeMessageLevel.Blank;
//var line = new LineCurve();
Brep inSrfc = null;
var noIndex = 0;
var comment = "";
var rfSrfc = new RFSurface();
var inRFEM = new GH_RFEM();
var rfEdges = new List <RFLine>();
var mod = false;
var del = false;
var boundList = "";
var geomType = 0;
var stiffType = 0;
var thickType = 0;
var thick = 0.0;
var mat = 0;
//int intPoints = 4;
//int newNo = 0;
if (DA.GetData(9, ref inRFEM))
{
rfSrfc = new RFSurface((RFSurface)inRFEM.Value);
if (DA.GetData(0, ref inSrfc))
{
Component_RFSurface.SetGeometry(inSrfc, ref rfSrfc);
}
if (DA.GetData(6, ref geomType))
{
rfSrfc.GeometryType = (SurfaceGeometryType)geomType;
if (rfSrfc.GeometryType == SurfaceGeometryType.UnknownGeometryType)
{
msg = "Surface Geometry Type not supported. ";
level = GH_RuntimeMessageLevel.Warning;
return;
}
}
if (DA.GetData(2, ref mat))
{
rfSrfc.MaterialNo = mat;
}
if (DA.GetData(3, ref thick))
{
rfSrfc.Thickness = thick;
}
}
else if (DA.GetData(0, ref inSrfc))
{
if (!(DA.GetData(2, ref mat) && DA.GetData(3, ref thick)))
{
msg = "Insufficient input parameters. Provide Material Number and Surface thickness. ";
level = GH_RuntimeMessageLevel.Warning;
return;
}
if (inSrfc.Edges.Select(x => x.GetLength()).Min() <= 0.001)
{
level = GH_RuntimeMessageLevel.Warning;
msg = "Boundary lines are too short. It may cause import errors.";
}
else
{
rfSrfc.MaterialNo = mat;
rfSrfc.Thickness = thick;
}
//DA.GetData(7, ref intPoints);
Component_RFSurface.SetGeometry(inSrfc, ref rfSrfc);
if (DA.GetData(6, ref geomType))
{
rfSrfc.GeometryType = (SurfaceGeometryType)geomType;
if (rfSrfc.GeometryType == SurfaceGeometryType.NurbsSurfaceType)
{
if (inSrfc.Edges.Count != 4)
{
msg = "Provide a valide NURBS Surface with 4 edge curves. ";
level = GH_RuntimeMessageLevel.Warning;
return;
}
Component_RFSurface.SetGeometryNURBS(inSrfc, ref rfSrfc);
}
if (rfSrfc.GeometryType == SurfaceGeometryType.UnknownGeometryType)
{
msg = "Surface Geometry Type not supported. ";
level = GH_RuntimeMessageLevel.Warning;
return;
}
}
}
else if (DA.GetData(5, ref boundList))
{
rfSrfc.BoundaryLineList = boundList;
if (!(DA.GetData(2, ref mat) && DA.GetData(3, ref thick)))
{
msg = "Insufficient input parameters. Provide Material Number and Surface thickness. ";
level = GH_RuntimeMessageLevel.Warning;
return;
}
else
{
rfSrfc.MaterialNo = mat;
rfSrfc.Thickness = thick;
}
if (DA.GetData(6, ref geomType))
{
rfSrfc.GeometryType = (SurfaceGeometryType)geomType;
if (rfSrfc.GeometryType == SurfaceGeometryType.UnknownGeometryType || (rfSrfc.GeometryType != SurfaceGeometryType.PlaneSurfaceType && rfSrfc.GeometryType != SurfaceGeometryType.QuadrangleSurfaceType))
{
msg = "Surface Geometry Type not supported. ";
level = GH_RuntimeMessageLevel.Warning;
return;
}
}
//}else
//{
// rfSrfc.GeometryType = SurfaceGeometryType.PlaneSurfaceType;
//}
}
else
{
msg = "Insufficient input parameters. Provide either Input Surface shape, Boundary Lines List or existing RFSurface Object. ";
level = GH_RuntimeMessageLevel.Warning;
return;
}
if (DA.GetData(10, ref mod))
{
rfSrfc.ToModify = mod;
}
if (DA.GetData(11, ref del))
{
rfSrfc.ToDelete = del;
}
if (DA.GetData(1, ref noIndex))
{
rfSrfc.No = noIndex;
}
if (DA.GetData(4, ref comment))
{
rfSrfc.Comment = comment;
}
if (DA.GetData(5, ref boundList))
{
rfSrfc.BoundaryLineList = boundList;
}
if (DA.GetData(7, ref thickType))
{
rfSrfc.ThicknessType = (SurfaceThicknessType)thickType;
if (rfSrfc.ThicknessType == SurfaceThicknessType.UnknownThicknessType)
{
msg = "Surface Thickness Type not supported. ";
level = GH_RuntimeMessageLevel.Warning;
return;
}
}
if (DA.GetData(8, ref stiffType))
{
rfSrfc.StiffnessType = (SurfaceStiffnessType)stiffType;
if (rfSrfc.StiffnessType == SurfaceStiffnessType.UnknownStiffnessType)
{
msg = "Taper Shape Type not supported. ";
level = GH_RuntimeMessageLevel.Warning;
return;
}
}
DA.SetData(0, rfSrfc);
}
/// <summary>
/// This is the method that actually does the work.
/// </summary>
/// <param name="DA">The DA object can be used to retrieve data from input parameters and
/// to store data in output parameters.</param>
protected override void SolveInstance(IGH_DataAccess DA, EvaluationUnit unit)
{
//var line = new LineCurve();
Brep inSrfc = null;
var noIndex = 0;
var comment = "";
var rfSrfc = new RFSurface();
var inRFEM = new GH_RFEM();
var rfEdges = new List <RFLine>();
var mod = false;
var del = false;
var boundList = "";
var geomType = "";
var stiffType = "";
var thickType = "";
var thick = 0.0;
var mat = 0;
//int intPoints = 4;
//int newNo = 0;
if (DA.GetData(9, ref inRFEM))
{
rfSrfc = new RFSurface((RFSurface)inRFEM.Value);
if (DA.GetData(6, ref geomType))
{
Enum.TryParse(geomType, out SurfaceGeometryType myGeomType);
rfSrfc.GeometryType = myGeomType;
}
}
else if (DA.GetData(0, ref inSrfc))
{
if (!(DA.GetData(2, ref mat) && DA.GetData(3, ref thick)))
{
return;
}
else
{
rfSrfc.MaterialNo = mat;
rfSrfc.Thickness = thick;
}
//DA.GetData(7, ref intPoints);
if (DA.GetData(6, ref geomType))
{
Enum.TryParse(geomType, out SurfaceGeometryType myGeomType);
rfSrfc.GeometryType = myGeomType;
}
Component_RFSurface.SetGeometry(inSrfc, ref rfSrfc);
}
else
{
return;
}
if (DA.GetData(10, ref mod))
{
rfSrfc.ToModify = mod;
}
if (DA.GetData(11, ref del))
{
rfSrfc.ToDelete = del;
}
if (DA.GetData(1, ref noIndex))
{
rfSrfc.No = noIndex;
}
if (DA.GetData(4, ref comment))
{
rfSrfc.Comment = comment;
}
if (DA.GetData(5, ref boundList))
{
rfSrfc.BoundaryLineList = boundList;
}
if (DA.GetData(7, ref thickType))
{
Enum.TryParse(thickType, out SurfaceThicknessType myThicknessType);
rfSrfc.ThicknessType = myThicknessType;
}
if (DA.GetData(8, ref stiffType))
{
Enum.TryParse(stiffType, out SurfaceStiffnessType myStiffType);
rfSrfc.StiffnessType = myStiffType;
}
DA.SetData(0, rfSrfc);
}