protected override void SolveInstance(IGH_DataAccess DA)
{
Curve curve = null;
Motions motions = null;
Rotations rotations = null;
MotionsPlasticLimits motionsPlasticLimit = null;
RotationsPlasticLimits rotationsPlasticLimit = null;
bool movingLocal = false;
if (!DA.GetData(0, ref curve))
{
return;
}
if (!DA.GetData(1, ref motions))
{
return;
}
if (!DA.GetData(2, ref rotations))
{
return;
}
DA.GetData(3, ref motionsPlasticLimit);
DA.GetData(4, ref rotationsPlasticLimit);
DA.GetData(5, ref movingLocal);
Vector3d v = Vector3d.Zero;
DA.GetData(6, ref v);
bool orientLCS = true;
DA.GetData(7, ref orientLCS);
string identifier = "S";
DA.GetData(8, ref identifier);
if (curve == null || identifier == null)
{
return;
}
Geometry.Edge edge = Convert.FromRhinoLineOrArc1(curve);
var obj = new Supports.LineSupport(edge, motions, motionsPlasticLimit, rotations, rotationsPlasticLimit, movingLocal, identifier);
// Set local y-axis
if (!v.Equals(Vector3d.Zero))
{
obj.Group.LocalY = v.FromRhino();
}
else // Orient coordinate system to GCS
{
if (orientLCS)
{
obj.Group.OrientCoordinateSystemToGCS();
}
}
DA.SetData(0, obj);
}
protected override void SolveInstance(IGH_DataAccess DA)
{
Brep surface = null;
Motions motions = null;
MotionsPlasticLimits motionsPlasticLimit = null;
Rhino.Geometry.Vector3d x = Vector3d.Zero;
Rhino.Geometry.Vector3d z = Vector3d.Zero;
string identifier = "S";
if (!DA.GetData(0, ref surface))
{
return;
}
if (!DA.GetData(1, ref motions))
{
return;
}
DA.GetData(2, ref motionsPlasticLimit);
DA.GetData(3, ref x);
DA.GetData(4, ref z);
DA.GetData(5, ref identifier);
if (surface == null || motions == null || identifier == null)
{
return;
}
Geometry.Region region = surface.FromRhino();
Supports.SurfaceSupport obj = new Supports.SurfaceSupport(region, motions, motionsPlasticLimit, identifier);
// Set local x-axis
if (!x.Equals(Vector3d.Zero))
{
obj.CoordinateSystem.SetXAroundZ(x.FromRhino());
}
// Set local z-axis
if (!z.Equals(Vector3d.Zero))
{
obj.CoordinateSystem.SetZAroundX(z.FromRhino());
}
DA.SetData(0, obj);
}
public static SurfaceSupport SurfaceSupportDefine(Autodesk.DesignScript.Geometry.Surface surface, Motions motions, [DefaultArgument("MotionsPlasticLimits.Default()")] MotionsPlasticLimits motionsPlasticLimits, [DefaultArgument("Autodesk.DesignScript.Geometry.Vector.ByCoordinates(0,0,0)")] Autodesk.DesignScript.Geometry.Vector localX, [DefaultArgument("Autodesk.DesignScript.Geometry.Vector.ByCoordinates(0,0,0)")] Autodesk.DesignScript.Geometry.Vector localZ, [DefaultArgument("S")] string identifier)
{
// convert geometry
Geometry.Region region = Geometry.Region.FromDynamo(surface);
// create new surface support
SurfaceSupport obj = new SurfaceSupport(region, motions, motionsPlasticLimits, identifier);
// set local x-axis
if (!localX.Equals(Autodesk.DesignScript.Geometry.Vector.ByCoordinates(0, 0, 0)))
{
obj.CoordinateSystem.SetXAroundZ(FemDesign.Geometry.FdVector3d.FromDynamo(localX));
}
// set local z-axis
if (!localZ.Equals(Autodesk.DesignScript.Geometry.Vector.ByCoordinates(0, 0, 0)))
{
obj.CoordinateSystem.SetZAroundX(FemDesign.Geometry.FdVector3d.FromDynamo(localZ));
}
return(obj);
}
public static LineSupport Define(Autodesk.DesignScript.Geometry.Curve curve, Motions motions, [DefaultArgument("MotionsPlasticLimits.Default()")] MotionsPlasticLimits motionsPlasticLimits, Rotations rotations, [DefaultArgument("RotationsPlasticLimits.Default()")] RotationsPlasticLimits rotationsPlasticLimits, [DefaultArgument("false")] bool movingLocal, [DefaultArgument("Autodesk.DesignScript.Geometry.Vector.ByCoordinates(0,0,0)")] Autodesk.DesignScript.Geometry.Vector localY, [DefaultArgument("true")] bool orientLCS, [DefaultArgument("S")] string identifier)
{
Geometry.Edge edge = Geometry.Edge.FromDynamoLineOrArc1(curve);
FemDesign.Supports.LineSupport obj = new LineSupport(edge, motions, motionsPlasticLimits, rotations, rotationsPlasticLimits, movingLocal, identifier);
// set local y-axis
if (!localY.Equals(Autodesk.DesignScript.Geometry.Vector.ByCoordinates(0, 0, 0)))
{
obj.Group.LocalY = FemDesign.Geometry.FdVector3d.FromDynamo(localY);
}
// else orient coordinate system to GCS
else
{
if (orientLCS)
{
obj.Group.OrientCoordinateSystemToGCS();
}
}
return(obj);
}
public static PointSupport Define(Autodesk.DesignScript.Geometry.Point point, Motions motions, [DefaultArgument("MotionsPlasticLimits.Default()")] MotionsPlasticLimits motionsPlasticLimits, Rotations rotations, [DefaultArgument("RotationsPlasticLimits.Default()")] RotationsPlasticLimits rotationsPlasticLimits, [DefaultArgument("S")] string identifier)
{
return(new PointSupport(Geometry.FdPoint3d.FromDynamo(point), motions, motionsPlasticLimits, rotations, rotationsPlasticLimits, identifier));
}
/// <summary>
/// Constructor by edge and rigidity. Used to create group for point support
/// </summary>
internal Group(Geometry.FdVector3d localX, Geometry.FdVector3d localY, Motions motions, MotionsPlasticLimits motionsPlasticLimits, Rotations rotations, RotationsPlasticLimits rotationsPlasticLimits)
{
this._localX = localX;
this._localY = localY;
this.Rigidity = new RigidityDataType3(motions, motionsPlasticLimits, rotations, rotationsPlasticLimits);
}
/// <summary>
/// Constructor by edge and rigidity. Used to create group for line support
/// </summary>
internal Group(Geometry.FdCoordinateSystem coordSystem, Motions motions, MotionsPlasticLimits motionsPlasticLimits, Rotations rotations, RotationsPlasticLimits rotationsPlasticLimits)
{
this.CoordinateSystem = coordSystem;
this.Rigidity = new RigidityDataType3(motions, motionsPlasticLimits, rotations, rotationsPlasticLimits);
}
/// <summary>
/// Create a connected point between 2 points with rigidity (motions, rotations) and plastic limits (forces, moments).
/// </summary>
public ConnectedPoints(FdPoint3d firstPoint, FdPoint3d secondPoint, Motions motions, MotionsPlasticLimits motionsPlasticLimits, Rotations rotations, RotationsPlasticLimits rotationsPlasticLimits, GuidListType[] references, string identifier = "CP")
{
RigidityDataType2 rigidity = new RigidityDataType2(motions, motionsPlasticLimits, rotations, rotationsPlasticLimits);
Initialize(firstPoint, secondPoint, rigidity, references, identifier);
}
/// <summary>
/// Create a connected point between 2 points with rigidity (motions, rotations) and plastic limits (forces, moments).
/// </summary>
public ConnectedPoints(FdPoint3d firstPoint, FdPoint3d secondPoint, Motions motions, MotionsPlasticLimits motionsPlasticLimits, Rotations rotations, RotationsPlasticLimits rotationsPlasticLimits, IEnumerable <EntityBase> references, string identifier = "CP")
{
GuidListType[] refs = references.Select(r => new GuidListType(r)).ToArray();
RigidityDataType2 rigidity = new RigidityDataType2(motions, motionsPlasticLimits, rotations, rotationsPlasticLimits);
Initialize(firstPoint, secondPoint, rigidity, refs, identifier);
}
/// <summary>
/// Create surface support with only translation rigidity and force plastic limits defined.
/// </summary>
public SurfaceSupport(Geometry.Region region, Motions motions, MotionsPlasticLimits motionsPlasticLimits, string identifier = "S")
{
var rigidity = new RigidityDataType1(motions, motionsPlasticLimits);
Initialize(region, rigidity, identifier);
}
