public static Slab Plate(Autodesk.DesignScript.Geometry.Surface surface, double thickness, Materials.Material material, [DefaultArgument("ShellEccentricity.Default()")] ShellEccentricity shellEccentricity, [DefaultArgument("ShellOrthotropy.Default()")] ShellOrthotropy shellOrthotropy, [DefaultArgument("EdgeConnection.Default()")] EdgeConnection shellEdgeConnection, [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, string identifier = "P")
{
// create FlatSurface
Geometry.Region region = Geometry.Region.FromDynamo(surface);
// create Thickness object
List <Thickness> _thickness = new List <Thickness>();
_thickness.Add(new Thickness(region.CoordinateSystem.Origin, thickness));
// create shell
Slab slab = Slab.Plate(identifier, material, region, shellEdgeConnection, shellEccentricity, shellOrthotropy, _thickness);
// set local x-axis
if (!localX.Equals(Autodesk.DesignScript.Geometry.Vector.ByCoordinates(0, 0, 0)))
{
slab.SlabPart.LocalX = FemDesign.Geometry.FdVector3d.FromDynamo(localX);
}
// set local z-axis
if (!localZ.Equals(Autodesk.DesignScript.Geometry.Vector.ByCoordinates(0, 0, 0)))
{
slab.SlabPart.LocalZ = FemDesign.Geometry.FdVector3d.FromDynamo(localZ);
}
return(slab);
}
public static Slab PlateVariableThickness(Autodesk.DesignScript.Geometry.Surface surface, List <Thickness> thickness, Materials.Material material, [DefaultArgument("ShellEccentricity.Default()")] ShellEccentricity shellEccentricity, [DefaultArgument("ShellOrthotropy.Default()")] ShellOrthotropy shellOrthotropy, [DefaultArgument("EdgeConnection.Default()")] EdgeConnection shellEdgeConnection, [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, string identifier = "P")
{
// create FlatSurface
Geometry.Region region = Geometry.Region.FromDynamo(surface);
// check length of thickness
if (thickness.Count != 3)
{
throw new System.ArgumentException("Thickness must contain exactly 3 items.");
}
// create shell
Slab slab = Slab.Plate(identifier, material, region, shellEdgeConnection, shellEccentricity, shellOrthotropy, thickness);
// set local x-axis
if (!localX.Equals(Autodesk.DesignScript.Geometry.Vector.ByCoordinates(0, 0, 0)))
{
slab.SlabPart.LocalX = FemDesign.Geometry.FdVector3d.FromDynamo(localX);
}
// set local z-axis
if (!localZ.Equals(Autodesk.DesignScript.Geometry.Vector.ByCoordinates(0, 0, 0)))
{
slab.SlabPart.LocalZ = FemDesign.Geometry.FdVector3d.FromDynamo(localZ);
}
return(slab);
}
public static Slab Wall(Autodesk.DesignScript.Geometry.Surface surface, double thickness, Materials.Material material, [DefaultArgument("ShellEccentricity.Default()")] ShellEccentricity shellEccentricity, [DefaultArgument("ShellOrthotropy.Default()")] ShellOrthotropy shellOrthotropy, [DefaultArgument("EdgeConnection.Default()")] EdgeConnection shellEdgeConnection, [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, string identifier = "W")
{
// create FlatSurface
Geometry.Region region = Geometry.Region.FromDynamo(surface);
// create Thickness object
List <Thickness> _thickness = new List <Thickness>();
_thickness.Add(new Thickness(region.CoordinateSystem.Origin, thickness));
// check if surface is vertical
if (Math.Abs(region.CoordinateSystem.LocalZ.Z) > FemDesign.Tolerance.Point3d)
{
throw new System.ArgumentException("Wall is not vertical! Create plate instead.");
}
// create shell
Slab slab = Slab.Wall(identifier, material, region, shellEdgeConnection, shellEccentricity, shellOrthotropy, _thickness);
// set local x-axis
if (!localX.Equals(Autodesk.DesignScript.Geometry.Vector.ByCoordinates(0, 0, 0)))
{
slab.SlabPart.LocalX = FemDesign.Geometry.FdVector3d.FromDynamo(localX);
}
// set local z-axis
if (!localZ.Equals(Autodesk.DesignScript.Geometry.Vector.ByCoordinates(0, 0, 0)))
{
slab.SlabPart.LocalZ = FemDesign.Geometry.FdVector3d.FromDynamo(localZ);
}
return(slab);
}
public static Slab Wall(string identifier, Materials.Material material, Geometry.Region region, EdgeConnection shellEdgeConnection, ShellEccentricity eccentricity, ShellOrthotropy orthotropy, List <Thickness> thickness)
{
// check if surface is vertical
if (Math.Abs(region.CoordinateSystem.LocalZ.Z) > FemDesign.Tolerance.Point3d)
{
throw new System.ArgumentException("Wall is not vertical! Create plate instead.");
}
Slab._wallInstance++;
SlabType type = SlabType.Wall;
string name = identifier + "." + Slab._wallInstance.ToString() + ".1";
SlabPart slabPart = SlabPart.Define(name, region, thickness, material, shellEdgeConnection, eccentricity, orthotropy);
Slab shell = new Slab(type, name, slabPart, material);
return(shell);
}
public static Slab Plate(string identifier, Materials.Material material, Geometry.Region region, EdgeConnection shellEdgeConnection, ShellEccentricity eccentricity, ShellOrthotropy orthotropy, List <Thickness> thickness)
{
Slab._plateInstance++;
SlabType type = SlabType.Plate;
string name = identifier + "." + Slab._plateInstance.ToString() + ".1";
SlabPart slabPart = SlabPart.Define(name, region, thickness, material, shellEdgeConnection, eccentricity, orthotropy);
Slab shell = new Slab(type, name, slabPart, material);
return(shell);
}
/// <summary>
/// Construct SlabPart with EdgeConnections.
/// </summary>
public static SlabPart Define(string name, Geometry.Region region, List <Thickness> thickness, Materials.Material material, EdgeConnection shellEdgeConnection, ShellEccentricity eccentricity, ShellOrthotropy orthotropy)
{
// add edgeConnections to region
region.SetEdgeConnections(shellEdgeConnection);
// construct new slabPart
SlabPart slabPart = new SlabPart(name, region, thickness, material, eccentricity, orthotropy);
// return
return(slabPart);
}
/// <summary>
/// Construct SlabPart.
/// </summary>
public SlabPart(string name, Geometry.Region region, List <Thickness> thickness, Materials.Material complexMaterial, ShellEccentricity alignment, ShellOrthotropy orthotropy)
{
this.EntityCreated();
this.Name = name;
this.Region = region;
this.ComplexMaterial = complexMaterial.Guid;
this.Alignment = alignment.Alignment;
this.AlignOffset = alignment.Eccentricity;
this.OrthoAlfa = orthotropy.OrthoAlfa;
this.OrthoRatio = orthotropy.OrthoRatio;
this.EccentricityCalculation = alignment.EccentricityCalculation;
this.EccentricityByCracking = alignment.EccentricityByCracking;
this.Thickness = thickness;
this.LocalPos = region.CoordinateSystem.Origin;
this._localX = region.CoordinateSystem.LocalX;
this._localY = region.CoordinateSystem.LocalY;
this.End = "";
}
