protected override Result RunCommand(RhinoDoc doc, RunMode mode)
{
// this creates a point where the mouse is clicked.
var gp = new GetPoint();
gp.SetCommandPrompt("Click for new point");
gp.Get();
if (gp.CommandResult() != Result.Success)
return gp.CommandResult();
var point3d = gp.Point();
doc.Objects.AddPoint(point3d);
doc.Views.Redraw();
// selects a point that already exists
ObjRef obj_ref;
var rc = RhinoGet.GetOneObject("Select point", false, ObjectType.Point, out obj_ref);
if (rc != Result.Success)
return rc;
var point = obj_ref.Point();
RhinoApp.WriteLine("Point: x:{0}, y:{1}, z:{2}",
point.Location.X,
point.Location.Y,
point.Location.Z);
doc.Objects.UnselectAll();
// selects multiple points that already exist
ObjRef[] obj_refs;
rc = RhinoGet.GetMultipleObjects("Select point", false, ObjectType.Point, out obj_refs);
if (rc != Result.Success)
return rc;
foreach (var o_ref in obj_refs)
{
point = o_ref.Point();
RhinoApp.WriteLine("Point: x:{0}, y:{1}, z:{2}",
point.Location.X,
point.Location.Y,
point.Location.Z);
}
doc.Objects.UnselectAll();
// also selects a point that already exists.
// Used when RhinoGet doesn't provide enough control
var go = new GetObject();
go.SetCommandPrompt("Select point");
go.GeometryFilter = ObjectType.Point;
go.GetMultiple(1, 0);
if (go.CommandResult() != Result.Success)
return go.CommandResult();
foreach (var o_ref in go.Objects())
{
point = o_ref.Point();
if (point != null)
RhinoApp.WriteLine("Point: x:{0}, y:{1}, z:{2}",
point.Location.X,
point.Location.Y,
point.Location.Z);
}
doc.Views.Redraw();
return Result.Success;
}
public static Result CopyGroups(RhinoDoc doc)
{
var go = new Rhino.Input.Custom.GetObject();
go.SetCommandPrompt("Select objects to copy in place");
go.GroupSelect = true;
go.SubObjectSelect = false;
go.GetMultiple(1, 0);
if (go.CommandResult() != Result.Success)
return go.CommandResult();
var xform = Transform.Identity;
var group_map = new Dictionary<int, int>();
foreach (var obj_ref in go.Objects())
{
if (obj_ref != null)
{
var obj = obj_ref.Object();
var duplicate = doc.Objects.Transform(obj_ref.ObjectId, xform, false);
RhinoUpdateObjectGroups(ref obj, ref group_map);
}
}
doc.Views.Redraw();
return Result.Success;
}
public static Rhino.Commands.Result TweenCurve(Rhino.RhinoDoc doc)
{
Rhino.Input.Custom.GetObject go = new Rhino.Input.Custom.GetObject();
go.SetCommandPrompt("Select two curves");
go.GeometryFilter = Rhino.DocObjects.ObjectType.Curve;
go.GetMultiple(2, 2);
if (go.CommandResult() != Rhino.Commands.Result.Success)
{
return(go.CommandResult());
}
Rhino.Geometry.Curve curve0 = go.Object(0).Curve();
Rhino.Geometry.Curve curve1 = go.Object(1).Curve();
if (null != curve0 && null != curve1)
{
Rhino.Geometry.Curve[] curves = Rhino.Geometry.Curve.CreateTweenCurves(curve0, curve1, 1);
if (null != curves)
{
for (int i = 0; i < curves.Length; i++)
{
doc.Objects.AddCurve(curves[i]);
}
doc.Views.Redraw();
return(Rhino.Commands.Result.Success);
}
}
return(Rhino.Commands.Result.Failure);
}
public static GH_LinearDimension GetLinearDimension2()
{
GetObject obj2;
Label_0000:
obj2 = new GetObject();
if (m_reference)
{
obj2.SetCommandPrompt("LinearDimension reference");
obj2.AddOption("Mode", "Reference");
}
else
{
obj2.SetCommandPrompt("LinearDimension to copy");
obj2.AddOption("Mode", "Copy");
}
obj2.GeometryFilter = ObjectType.Annotation;
GetResult result = obj2.Get();
if (result == GetResult.Option)
{
m_reference = !m_reference;
goto Label_0000;
}
if (result != GetResult.Object)
{
return null;
}
if (!m_reference)
{
return new GH_LinearDimension((LinearDimension)obj2.Object(0).Geometry());
}
GH_LinearDimension dm =new GH_LinearDimension(obj2.Object(0).ObjectId);
if ((dm != null) && (!dm.IsGeometryLoaded)) { dm.LoadGeometry(); }
return dm;
}
protected override Result RunCommand(RhinoDoc doc, RunMode mode)
{
var gm = new GetObject();
gm.SetCommandPrompt("Select solid meshes for volume calculation");
gm.GeometryFilter = ObjectType.Mesh;
gm.GeometryAttributeFilter = GeometryAttributeFilter.ClosedMesh;
gm.SubObjectSelect = false;
gm.GroupSelect = true;
gm.GetMultiple(1, 0);
if (gm.CommandResult() != Result.Success)
return gm.CommandResult();
double volume = 0.0;
double volume_error = 0.0;
foreach (var obj_ref in gm.Objects())
{
if (obj_ref.Mesh() != null)
{
var mass_properties = VolumeMassProperties.Compute(obj_ref.Mesh());
if (mass_properties != null)
{
volume += mass_properties.Volume;
volume_error += mass_properties.VolumeError;
}
}
}
RhinoApp.WriteLine("Total volume = {0:f} (+/- {1:f})", volume, volume_error);
return Result.Success;
}
public static Rhino.Commands.Result LineBetweenCurves(Rhino.RhinoDoc doc)
{
Rhino.Input.Custom.GetObject go = new Rhino.Input.Custom.GetObject();
go.SetCommandPrompt("Select two curves");
go.GeometryFilter = Rhino.DocObjects.ObjectType.Curve;
go.GetMultiple(2, 2);
if (go.CommandResult() != Rhino.Commands.Result.Success)
return go.CommandResult();
Rhino.DocObjects.ObjRef objRef0 = go.Object(0);
Rhino.DocObjects.ObjRef objRef1 = go.Object(1);
double t0 = Rhino.RhinoMath.UnsetValue;
double t1 = Rhino.RhinoMath.UnsetValue;
Rhino.Geometry.Curve curve0 = objRef0.CurveParameter(out t0);
Rhino.Geometry.Curve curve1 = objRef1.CurveParameter(out t1);
if (null == curve0 || !Rhino.RhinoMath.IsValidDouble(t0) ||
null == curve1 || !Rhino.RhinoMath.IsValidDouble(t1) )
return Rhino.Commands.Result.Failure;
Rhino.Geometry.Line line = Rhino.Geometry.Line.Unset;
bool rc = Rhino.Geometry.Line.TryCreateBetweenCurves(curve0, curve1, ref t0, ref t1, false, false, out line);
if (rc)
{
if (Guid.Empty != doc.Objects.AddLine(line))
{
doc.Views.Redraw();
return Rhino.Commands.Result.Success;
}
}
return Rhino.Commands.Result.Failure;
}
public static Rhino.Commands.Result CircleCenter(Rhino.RhinoDoc doc)
{
Rhino.Input.Custom.GetObject go = new Rhino.Input.Custom.GetObject();
go.SetCommandPrompt("Select objects");
go.GeometryFilter = Rhino.DocObjects.ObjectType.Curve;
go.GeometryAttributeFilter = Rhino.Input.Custom.GeometryAttributeFilter.ClosedCurve;
go.GetMultiple(1, 0);
if( go.CommandResult() != Rhino.Commands.Result.Success )
return go.CommandResult();
Rhino.DocObjects.ObjRef[] objrefs = go.Objects();
if( objrefs==null )
return Rhino.Commands.Result.Nothing;
double tolerance = doc.ModelAbsoluteTolerance;
for( int i=0; i<objrefs.Length; i++ )
{
// get the curve geometry
Rhino.Geometry.Curve curve = objrefs[i].Curve();
if( curve==null )
continue;
Rhino.Geometry.Circle circle;
if( curve.TryGetCircle(out circle, tolerance) )
{
Rhino.RhinoApp.WriteLine("Circle{0}: center = {1}", i+1, circle.Center);
}
}
return Rhino.Commands.Result.Success;
}
protected override Result RunCommand(RhinoDoc doc, RunMode mode)
{
var gs = new GetObject();
gs.SetCommandPrompt("select sphere");
gs.GeometryFilter = ObjectType.Surface;
gs.DisablePreSelect();
gs.SubObjectSelect = false;
gs.Get();
if (gs.CommandResult() != Result.Success)
return gs.CommandResult();
Sphere sphere;
gs.Object(0).Surface().TryGetSphere(out sphere);
if (sphere.IsValid)
{
var mesh = Mesh.CreateFromSphere(sphere, 10, 10);
if (mesh == null)
return Result.Failure;
var conduit = new DrawBlueMeshConduit(mesh) {Enabled = true};
doc.Views.Redraw();
var in_str = "";
Rhino.Input.RhinoGet.GetString("press <Enter> to continue", true, ref in_str);
conduit.Enabled = false;
doc.Views.Redraw();
return Result.Success;
}
else
return Result.Failure;
}
protected override Result RunCommand(RhinoDoc doc, RunMode mode)
{
var gs = new GetObject();
gs.SetCommandPrompt("select surface");
gs.GeometryFilter = ObjectType.Surface | ObjectType.PolysrfFilter;
gs.DisablePreSelect();
gs.SubObjectSelect = false;
gs.Get();
if (gs.CommandResult() != Result.Success)
return gs.CommandResult();
var brep = gs.Object(0).Brep();
if (brep == null)
return Result.Failure;
var points = Intersection.ProjectPointsToBreps(
new List<Brep> {brep}, // brep on which to project
new List<Point3d> {new Point3d(0, 0, 0), new Point3d(3,0,3), new Point3d(-2,0,-2)}, // some random points to project
new Vector3d(0, 1, 0), // project on Y axis
doc.ModelAbsoluteTolerance);
if (points != null && points.Length > 0)
{
foreach (var point in points)
{
doc.Objects.AddPoint(point);
}
}
doc.Views.Redraw();
return Result.Success;
}
protected override Result RunCommand(Rhino.RhinoDoc doc, RunMode mode)
{
Rhino.Input.Custom.GetObject getobjects = new Rhino.Input.Custom.GetObject();
getobjects.GeometryFilter = Rhino.DocObjects.ObjectType.Curve;
getobjects.AcceptNothing(false);
switch (getobjects.GetMultiple(1, 0))
{
case GetResult.ExitRhino:
return(Result.ExitRhino);
case GetResult.Cancel:
return(Result.Cancel);
case GetResult.Object:
if (getobjects.ObjectCount > 1)
{
Rhino.DocObjects.ObjRef[] arrCurve = getobjects.Objects();
Array.Sort(arrCurve, (x, y) => x.Curve().GetLength().CompareTo(y.Curve().GetLength()));
doc.Objects.Delete(arrCurve[0], true);
}
return(Result.Success);
default:
return(Result.Failure);
}
}
public static Rhino.Commands.Result AddObjectsToGroup(Rhino.RhinoDoc doc)
{
Rhino.Input.Custom.GetObject go = new Rhino.Input.Custom.GetObject();
go.SetCommandPrompt("Select objects to group");
go.GroupSelect = true;
go.GetMultiple(1, 0);
if (go.CommandResult() != Rhino.Commands.Result.Success)
{
return(go.CommandResult());
}
List <Guid> ids = new List <Guid>();
for (int i = 0; i < go.ObjectCount; i++)
{
ids.Add(go.Object(i).ObjectId);
}
int index = doc.Groups.Add(ids);
doc.Views.Redraw();
if (index >= 0)
{
return(Rhino.Commands.Result.Success);
}
return(Rhino.Commands.Result.Failure);
}
public static Rhino.Commands.Result TweenCurve(Rhino.RhinoDoc doc)
{
Rhino.Input.Custom.GetObject go = new Rhino.Input.Custom.GetObject();
go.SetCommandPrompt("Select two curves");
go.GeometryFilter = Rhino.DocObjects.ObjectType.Curve;
go.GetMultiple(2, 2);
if (go.CommandResult() != Rhino.Commands.Result.Success)
return go.CommandResult();
Rhino.Geometry.Curve curve0 = go.Object(0).Curve();
Rhino.Geometry.Curve curve1 = go.Object(1).Curve();
if (null != curve0 && null != curve1)
{
Rhino.Geometry.Curve[] curves = Rhino.Geometry.Curve.CreateTweenCurves(curve0, curve1, 1);
if (null != curves)
{
for (int i = 0; i < curves.Length; i++)
doc.Objects.AddCurve(curves[i]);
doc.Views.Redraw();
return Rhino.Commands.Result.Success;
}
}
return Rhino.Commands.Result.Failure;
}
public static Result PrePostPick(RhinoDoc doc)
{
var go = new Rhino.Input.Custom.GetObject();
go.SetCommandPrompt("Select objects");
go.EnablePreSelect(true, true);
go.EnablePostSelect(true);
go.GetMultiple(0, 0);
if (go.CommandResult() != Result.Success)
return go.CommandResult();
var selected_objects = go.Objects().ToList();
if (go.ObjectsWerePreselected)
{
go.EnablePreSelect(false, true);
go.DeselectAllBeforePostSelect = false;
go.EnableUnselectObjectsOnExit(false);
go.GetMultiple(0, 0);
if (go.CommandResult() == Result.Success)
{
foreach (var obj in go.Objects())
{
selected_objects.Add(obj);
// The normal behavior of commands is that when they finish,
// objects that were pre-selected remain selected and objects
// that were post-selected will not be selected. Because we
// potentially could have both, we'll try to do something
// consistent and make sure post-selected objects also stay selected
obj.Object().Select(true);
}
}
}
return selected_objects.Count > 0 ? Result.Success : Result.Nothing;
}
public static Rhino.Commands.Result Sweep1(Rhino.RhinoDoc doc)
{
Rhino.DocObjects.ObjRef rail_ref;
var rc = RhinoGet.GetOneObject("Select rail curve", false, Rhino.DocObjects.ObjectType.Curve, out rail_ref);
if (rc != Rhino.Commands.Result.Success)
{
return(rc);
}
var rail_crv = rail_ref.Curve();
if (rail_crv == null)
{
return(Rhino.Commands.Result.Failure);
}
var gx = new Rhino.Input.Custom.GetObject();
gx.SetCommandPrompt("Select cross section curves");
gx.GeometryFilter = Rhino.DocObjects.ObjectType.Curve;
gx.EnablePreSelect(false, true);
gx.GetMultiple(1, 0);
if (gx.CommandResult() != Rhino.Commands.Result.Success)
{
return(gx.CommandResult());
}
var cross_sections = new List <Rhino.Geometry.Curve>();
for (int i = 0; i < gx.ObjectCount; i++)
{
var crv = gx.Object(i).Curve();
if (crv != null)
{
cross_sections.Add(crv);
}
}
if (cross_sections.Count < 1)
{
return(Rhino.Commands.Result.Failure);
}
var sweep = new Rhino.Geometry.SweepOneRail();
sweep.AngleToleranceRadians = doc.ModelAngleToleranceRadians;
sweep.ClosedSweep = false;
sweep.SweepTolerance = doc.ModelAbsoluteTolerance;
sweep.SetToRoadlikeTop();
var breps = sweep.PerformSweep(rail_crv, cross_sections);
for (int i = 0; i < breps.Length; i++)
{
doc.Objects.AddBrep(breps[i]);
}
doc.Views.Redraw();
return(Rhino.Commands.Result.Success);
}
public static Rhino.Commands.Result ConstrainedCopy(Rhino.RhinoDoc doc)
{
// Get a single planar closed curve
var go = new Rhino.Input.Custom.GetObject();
go.SetCommandPrompt("Select curve");
go.GeometryFilter = Rhino.DocObjects.ObjectType.Curve;
go.GeometryAttributeFilter = Rhino.Input.Custom.GeometryAttributeFilter.ClosedCurve;
go.Get();
if (go.CommandResult() != Rhino.Commands.Result.Success)
{
return(go.CommandResult());
}
var objref = go.Object(0);
var base_curve = objref.Curve();
var first_point = objref.SelectionPoint();
if (base_curve == null || !first_point.IsValid)
{
return(Rhino.Commands.Result.Cancel);
}
Rhino.Geometry.Plane plane;
if (!base_curve.TryGetPlane(out plane))
{
return(Rhino.Commands.Result.Cancel);
}
// Get a point constrained to a line passing through the initial selection
// point and parallel to the plane's normal
var gp = new Rhino.Input.Custom.GetPoint();
gp.SetCommandPrompt("Offset point");
gp.DrawLineFromPoint(first_point, true);
var line = new Rhino.Geometry.Line(first_point, first_point + plane.Normal);
gp.Constrain(line);
gp.Get();
if (gp.CommandResult() != Rhino.Commands.Result.Success)
{
return(gp.CommandResult());
}
var second_point = gp.Point();
Rhino.Geometry.Vector3d vec = second_point - first_point;
if (vec.Length > 0.001)
{
var xf = Rhino.Geometry.Transform.Translation(vec);
Guid id = doc.Objects.Transform(objref, xf, false);
if (id != Guid.Empty)
{
doc.Views.Redraw();
return(Rhino.Commands.Result.Success);
}
}
return(Rhino.Commands.Result.Cancel);
}
protected override Result RunCommand(RhinoDoc doc, RunMode mode)
{
var layerCheck = doc.Layers.FindName("Numbers");
if (layerCheck == null)
{
doc.Layers.Add("Numbers", System.Drawing.Color.DarkRed);
layerCheck = doc.Layers.FindName("Numbers");
}
//pick objects to add center point
Rhino.Input.Custom.GetObject go = new Rhino.Input.Custom.GetObject();
go.SetCommandPrompt("Select objects to number");
var heightref = new Rhino.Input.Custom.OptionDouble(height);
go.AddOptionDouble("Text_height_mm", ref heightref);
go.GroupSelect = true;
go.SubObjectSelect = false;
go.EnableClearObjectsOnEntry(false);
go.EnableUnselectObjectsOnExit(false);
go.DeselectAllBeforePostSelect = false;
go.GetMultiple(1, 0);
//Compute center and add point to doc
for (int i = 0; i < go.ObjectCount; i++)
{
height = heightref.CurrentValue;
Rhino.DocObjects.ObjRef objref = go.Object(i);
Guid objGuid = objref.ObjectId;
BoundingBox bbObj = go.Object(i).Geometry().GetBoundingBox(true);
Point3d bbObjCenter = bbObj.Center;
int a = i + 1;
Plane plane = Plane.WorldXY;
plane.Origin = bbObjCenter;
var Justification = TextJustification.MiddleCenter;
string text = a.ToString();
var Font = "Arial";
Guid num = doc.Objects.AddText(text, plane, height, Font, false, false, Justification);
Rhino.DocObjects.RhinoObject circObj = doc.Objects.Find(num);
circObj.Attributes.LayerIndex = layerCheck.Index;
circObj.CommitChanges();
int groupIndex = doc.Groups.Count;
groupIndex++;
string group = groupIndex.ToString();
var gI = doc.Groups.Add(group);
doc.Groups.AddToGroup(gI, num);
doc.Groups.AddToGroup(gI, objGuid);
}
doc.Views.Redraw();
return(Result.Success);
}
protected override Result RunCommand(RhinoDoc doc, RunMode mode)
{
var layerCheck = doc.Layers.FindName("CenterPoints");
if (layerCheck == null)
{
doc.Layers.Add("CenterPoints", System.Drawing.Color.Blue);
layerCheck = doc.Layers.FindName("CenterPoints");
}
//pick objects to add center point
Rhino.Input.Custom.GetObject go = new Rhino.Input.Custom.GetObject();
go.SetCommandPrompt("Select objects to add center point");
go.GroupSelect = true;
go.SubObjectSelect = false;
go.EnableClearObjectsOnEntry(false);
go.EnableUnselectObjectsOnExit(false);
go.DeselectAllBeforePostSelect = false;
go.GetMultiple(1, 0);
//Compute center and add point to doc
for (int i = 0; i < go.ObjectCount; i++)
{
Guid pointG;
Rhino.DocObjects.ObjRef objref = go.Object(i);
Rhino.DocObjects.RhinoObject obj = objref.Object();
var objType = obj.ObjectType;
if (objType == Rhino.DocObjects.ObjectType.Curve)
{
Curve curve = objref.Curve();
Circle circle = new Circle();
if (!curve.TryGetCircle(out circle, doc.ModelAbsoluteTolerance))
{
BoundingBox bbObj = go.Object(i).Geometry().GetBoundingBox(true);
Point3d bbObjCenter = bbObj.Center;
pointG = doc.Objects.AddPoint(bbObjCenter);
}
else
{
Point3d circleCenter = circle.Center;
pointG = doc.Objects.AddPoint(circleCenter);
}
}
else
{
BoundingBox bbObj = go.Object(i).Geometry().GetBoundingBox(true);
Point3d bbObjCenter = bbObj.Center;
pointG = doc.Objects.AddPoint(bbObjCenter);
}
Rhino.DocObjects.RhinoObject circObj = doc.Objects.Find(pointG);
circObj.Attributes.LayerIndex = layerCheck.Index;
circObj.CommitChanges();
}
doc.Views.Redraw();
return(Result.Success);
}
public static Rhino.Commands.Result IntersectLines(Rhino.RhinoDoc doc)
{
Rhino.Input.Custom.GetObject go = new Rhino.Input.Custom.GetObject();
go.SetCommandPrompt("Select lines");
go.GeometryFilter = Rhino.DocObjects.ObjectType.Curve;
go.GetMultiple(2, 2);
if (go.CommandResult() != Rhino.Commands.Result.Success)
{
return(go.CommandResult());
}
if (go.ObjectCount != 2)
{
return(Rhino.Commands.Result.Failure);
}
LineCurve crv0 = go.Object(0).Geometry() as LineCurve;
LineCurve crv1 = go.Object(1).Geometry() as LineCurve;
if (crv0 == null || crv1 == null)
{
return(Rhino.Commands.Result.Failure);
}
Line line0 = crv0.Line;
Line line1 = crv1.Line;
Vector3d v0 = line0.Direction;
v0.Unitize();
Vector3d v1 = line1.Direction;
v1.Unitize();
if (v0.IsParallelTo(v1) != 0)
{
Rhino.RhinoApp.WriteLine("Selected lines are parallel.");
return(Rhino.Commands.Result.Nothing);
}
double a, b;
if (!Rhino.Geometry.Intersect.Intersection.LineLine(line0, line1, out a, out b))
{
Rhino.RhinoApp.WriteLine("No intersection found.");
return(Rhino.Commands.Result.Nothing);
}
Point3d pt0 = line0.PointAt(a);
Point3d pt1 = line1.PointAt(b);
// pt0 and pt1 should be equal, so we will only add pt0 to the document
doc.Objects.AddPoint(pt0);
doc.Views.Redraw();
return(Rhino.Commands.Result.Success);
}
protected override Result RunCommand(RhinoDoc doc, RunMode mode)
{
var go = new Rhino.Input.Custom.GetObject();
go.SetCommandPrompt("Select edge of surface to extend");
go.GeometryFilter = ObjectType.EdgeFilter;
go.GeometryAttributeFilter = GeometryAttributeFilter.EdgeCurve;
go.Get();
if (go.CommandResult() != Result.Success)
return go.CommandResult();
var obj_ref = go.Object(0);
var surface = obj_ref.Surface();
if (surface == null)
{
RhinoApp.WriteLine("Unable to extend polysurfaces.");
return Result.Failure;
}
var brep = obj_ref.Brep();
var face = obj_ref.Face();
if (brep == null || face == null)
return Result.Failure;
if (face.FaceIndex < 0)
return Result.Failure;
if( !brep.IsSurface)
{
RhinoApp.WriteLine("Unable to extend trimmed surfaces.");
return Result.Nothing;
}
var curve = obj_ref.Curve();
var trim = obj_ref.Trim();
if (trim == null)
return Result.Failure;
if (trim.TrimType == BrepTrimType.Seam)
{
RhinoApp.WriteLine("Unable to extend surface at seam.");
return Result.Nothing;
}
var extended_surface = surface.Extend(trim.IsoStatus, 5.0, true);
if (extended_surface != null)
{
var mybrep = Brep.CreateFromSurface(extended_surface);
doc.Objects.Replace(obj_ref.ObjectId, mybrep);
doc.Views.Redraw();
}
return Result.Success;
}
public static Rhino.Commands.Result Flow(Rhino.RhinoDoc doc)
{
ObjectType filter = SpaceMorphObjectFilter();
Rhino.DocObjects.ObjRef objref;
Rhino.Commands.Result rc = Rhino.Input.RhinoGet.GetOneObject("Select object to flow", false, filter, out objref);
if (rc != Rhino.Commands.Result.Success || objref == null)
{
return(rc);
}
Rhino.Input.Custom.GetObject go0 = new Rhino.Input.Custom.GetObject();
go0.SetCommandPrompt("Source curve");
go0.GeometryFilter = Rhino.DocObjects.ObjectType.Curve;
go0.SubObjectSelect = false;
go0.EnablePreSelect(false, true);
go0.DeselectAllBeforePostSelect = false;
go0.Get();
if (go0.CommandResult() != Rhino.Commands.Result.Success)
{
return(go0.CommandResult());
}
Rhino.DocObjects.ObjRef crv0_ref = go0.Object(0);
Rhino.Input.Custom.GetObject go1 = new Rhino.Input.Custom.GetObject();
go1.SetCommandPrompt("Source curve");
go1.GeometryFilter = Rhino.DocObjects.ObjectType.Curve;
go1.SubObjectSelect = false;
go1.EnablePreSelect(false, true);
go1.DeselectAllBeforePostSelect = false;
go1.Get();
if (go1.CommandResult() != Rhino.Commands.Result.Success)
{
return(go1.CommandResult());
}
Rhino.DocObjects.ObjRef crv1_ref = go1.Object(0);
Rhino.Geometry.Morphs.FlowSpaceMorph morph = new Rhino.Geometry.Morphs.FlowSpaceMorph(crv0_ref.Curve(), crv1_ref.Curve(), false);
Rhino.Geometry.GeometryBase geom = objref.Geometry().Duplicate();
if (morph.Morph(geom))
{
doc.Objects.Add(geom);
doc.Views.Redraw();
}
return(Rhino.Commands.Result.Success);
}
protected override Result RunCommand(RhinoDoc doc, RunMode mode)
{
m_tolerance = doc.ModelAbsoluteTolerance;
// only use a custom geometry filter if no simpler filter does the job
// only curves
var gc = new GetObject();
gc.SetCommandPrompt("select curve");
gc.GeometryFilter = ObjectType.Curve;
gc.DisablePreSelect();
gc.SubObjectSelect = false;
gc.Get();
if (gc.CommandResult() != Result.Success)
return gc.CommandResult();
if (null == gc.Object(0).Curve())
return Result.Failure;
Rhino.RhinoApp.WriteLine("curve was selected");
// only closed curves
var gcc = new GetObject();
gcc.SetCommandPrompt("select closed curve");
gcc.GeometryFilter = ObjectType.Curve;
gcc.GeometryAttributeFilter = GeometryAttributeFilter.ClosedCurve;
gcc.DisablePreSelect();
gcc.SubObjectSelect = false;
gcc.Get();
if (gcc.CommandResult() != Result.Success)
return gcc.CommandResult();
if (null == gcc.Object(0).Curve())
return Result.Failure;
Rhino.RhinoApp.WriteLine("closed curve was selected");
// only circles with a radius of 10
var gcc10 = new GetObject();
gcc10.SetCommandPrompt("select circle with radius of 10");
gc.GeometryFilter = ObjectType.Curve;
gcc10.SetCustomGeometryFilter(CircleWithRadiusOf10GeometryFilter); // custom geometry filter
gcc10.DisablePreSelect();
gcc10.SubObjectSelect = false;
gcc10.Get();
if (gcc10.CommandResult() != Result.Success)
return gcc10.CommandResult();
if (null == gcc10.Object(0).Curve())
return Result.Failure;
RhinoApp.WriteLine("circle with radius of 10 was selected");
return Result.Success;
}
protected override Result RunCommand(RhinoDoc doc, RunMode mode)
{
var gs = new GetObject();
gs.SetCommandPrompt("select brep");
gs.GeometryFilter = ObjectType.Brep;
gs.DisablePreSelect();
gs.SubObjectSelect = false;
gs.Get();
if (gs.CommandResult() != Result.Success)
return gs.CommandResult();
var brep = gs.Object(0).Brep();
var gc = new GetObject();
gc.SetCommandPrompt("select curve");
gc.GeometryFilter = ObjectType.Curve;
gc.DisablePreSelect();
gc.SubObjectSelect = false;
gc.Get();
if (gc.CommandResult() != Result.Success)
return gc.CommandResult();
var curve = gc.Object(0).Curve();
if (brep == null || curve == null)
return Result.Failure;
var tolerance = doc.ModelAbsoluteTolerance;
Point3d[] intersection_points;
Curve[] overlap_curves;
if (!Intersection.CurveBrep(curve, brep, tolerance, out overlap_curves, out intersection_points))
{
RhinoApp.WriteLine("curve brep intersection failed");
return Result.Nothing;
}
foreach (var overlap_curve in overlap_curves)
doc.Objects.AddCurve(overlap_curve);
foreach (var intersection_point in intersection_points)
doc.Objects.AddPoint(intersection_point);
RhinoApp.WriteLine("{0} overlap curves, and {1} intersection points", overlap_curves.Length, intersection_points.Length);
doc.Views.Redraw();
return Result.Success;
}
public static Rhino.Commands.Result ConstrainedCopy(Rhino.RhinoDoc doc)
{
// Get a single planar closed curve
var go = new Rhino.Input.Custom.GetObject();
go.SetCommandPrompt("Select curve");
go.GeometryFilter = Rhino.DocObjects.ObjectType.Curve;
go.GeometryAttributeFilter = Rhino.Input.Custom.GeometryAttributeFilter.ClosedCurve;
go.Get();
if( go.CommandResult() != Rhino.Commands.Result.Success )
return go.CommandResult();
var objref = go.Object(0);
var base_curve = objref.Curve();
var first_point = objref.SelectionPoint();
if( base_curve==null || !first_point.IsValid )
return Rhino.Commands.Result.Cancel;
Rhino.Geometry.Plane plane;
if( !base_curve.TryGetPlane(out plane) )
return Rhino.Commands.Result.Cancel;
// Get a point constrained to a line passing through the initial selection
// point and parallel to the plane's normal
var gp = new Rhino.Input.Custom.GetPoint();
gp.SetCommandPrompt("Offset point");
gp.DrawLineFromPoint(first_point, true);
var line = new Rhino.Geometry.Line(first_point, first_point+plane.Normal);
gp.Constrain(line);
gp.Get();
if( gp.CommandResult() != Rhino.Commands.Result.Success )
return gp.CommandResult();
var second_point = gp.Point();
Rhino.Geometry.Vector3d vec = second_point - first_point;
if( vec.Length > 0.001 )
{
var xf = Rhino.Geometry.Transform.Translation(vec);
Guid id = doc.Objects.Transform(objref, xf, false);
if( id!=Guid.Empty )
{
doc.Views.Redraw();
return Rhino.Commands.Result.Success;
}
}
return Rhino.Commands.Result.Cancel;
}
public static Rhino.Commands.Result Splop(Rhino.RhinoDoc doc)
{
ObjectType filter = SpaceMorphObjectFilter();
Rhino.DocObjects.ObjRef objref;
Rhino.Commands.Result rc = Rhino.Input.RhinoGet.GetOneObject("Select object to splop", false, filter, out objref);
if (rc != Rhino.Commands.Result.Success || objref == null)
{
return(rc);
}
Rhino.Geometry.Plane plane = doc.Views.ActiveView.ActiveViewport.ConstructionPlane();
Rhino.Input.Custom.GetObject go = new Rhino.Input.Custom.GetObject();
go.SetCommandPrompt("Surface to splop on");
go.GeometryFilter = Rhino.DocObjects.ObjectType.Surface;
go.SubObjectSelect = false;
go.EnablePreSelect(false, true);
go.DeselectAllBeforePostSelect = false;
go.Get();
if (go.CommandResult() != Rhino.Commands.Result.Success)
{
return(go.CommandResult());
}
Rhino.DocObjects.ObjRef srfref = go.Object(0);
double u, v;
srfref.SurfaceParameter(out u, out v);
Rhino.Geometry.Point2d uv = new Rhino.Geometry.Point2d(u, v);
Rhino.Geometry.Morphs.SplopSpaceMorph morph = new Rhino.Geometry.Morphs.SplopSpaceMorph(plane, srfref.Surface(), uv);
Rhino.Geometry.GeometryBase geom = objref.Geometry().Duplicate();
if (morph.Morph(geom))
{
doc.Objects.Add(geom);
doc.Views.Redraw();
}
return(Rhino.Commands.Result.Success);
}
public static Rhino.Commands.Result IntersectLines(Rhino.RhinoDoc doc)
{
Rhino.Input.Custom.GetObject go = new Rhino.Input.Custom.GetObject();
go.SetCommandPrompt( "Select lines" );
go.GeometryFilter = Rhino.DocObjects.ObjectType.Curve;
go.GetMultiple( 2, 2);
if( go.CommandResult() != Rhino.Commands.Result.Success )
return go.CommandResult();
if( go.ObjectCount != 2 )
return Rhino.Commands.Result.Failure;
LineCurve crv0 = go.Object(0).Geometry() as LineCurve;
LineCurve crv1 = go.Object(1).Geometry() as LineCurve;
if( crv0==null || crv1==null )
return Rhino.Commands.Result.Failure;
Line line0 = crv0.Line;
Line line1 = crv1.Line;
Vector3d v0 = line0.Direction;
v0.Unitize();
Vector3d v1 = line1.Direction;
v1.Unitize();
if( v0.IsParallelTo(v1) != 0 )
{
Rhino.RhinoApp.WriteLine("Selected lines are parallel.");
return Rhino.Commands.Result.Nothing;
}
double a, b;
if( !Rhino.Geometry.Intersect.Intersection.LineLine(line0, line1, out a, out b))
{
Rhino.RhinoApp.WriteLine("No intersection found.");
return Rhino.Commands.Result.Nothing;
}
Point3d pt0 = line0.PointAt(a);
Point3d pt1 = line1.PointAt(b);
// pt0 and pt1 should be equal, so we will only add pt0 to the document
doc.Objects.AddPoint( pt0 );
doc.Views.Redraw();
return Rhino.Commands.Result.Success;
}
public static Rhino.Commands.Result Flow(Rhino.RhinoDoc doc)
{
ObjectType filter = SpaceMorphObjectFilter();
Rhino.DocObjects.ObjRef objref;
Rhino.Commands.Result rc = Rhino.Input.RhinoGet.GetOneObject("Select object to flow", false, filter, out objref);
if (rc != Rhino.Commands.Result.Success || objref == null)
return rc;
Rhino.Input.Custom.GetObject go0 = new Rhino.Input.Custom.GetObject();
go0.SetCommandPrompt("Source curve");
go0.GeometryFilter = Rhino.DocObjects.ObjectType.Curve;
go0.SubObjectSelect = false;
go0.EnablePreSelect(false, true);
go0.DeselectAllBeforePostSelect = false;
go0.Get();
if (go0.CommandResult() != Rhino.Commands.Result.Success)
return go0.CommandResult();
Rhino.DocObjects.ObjRef crv0_ref = go0.Object(0);
Rhino.Input.Custom.GetObject go1 = new Rhino.Input.Custom.GetObject();
go1.SetCommandPrompt("Source curve");
go1.GeometryFilter = Rhino.DocObjects.ObjectType.Curve;
go1.SubObjectSelect = false;
go1.EnablePreSelect(false, true);
go1.DeselectAllBeforePostSelect = false;
go1.Get();
if (go1.CommandResult() != Rhino.Commands.Result.Success)
return go1.CommandResult();
Rhino.DocObjects.ObjRef crv1_ref = go1.Object(0);
Rhino.Geometry.Morphs.FlowSpaceMorph morph = new Rhino.Geometry.Morphs.FlowSpaceMorph(crv0_ref.Curve(), crv1_ref.Curve(), false);
Rhino.Geometry.GeometryBase geom = objref.Geometry().Duplicate();
if (morph.Morph(geom))
{
doc.Objects.Add(geom);
doc.Views.Redraw();
}
return Rhino.Commands.Result.Success;
}
public static Rhino.Commands.Result AddObjectsToGroup(Rhino.RhinoDoc doc)
{
Rhino.Input.Custom.GetObject go = new Rhino.Input.Custom.GetObject();
go.SetCommandPrompt("Select objects to group");
go.GroupSelect = true;
go.GetMultiple(1, 0);
if (go.CommandResult() != Rhino.Commands.Result.Success)
return go.CommandResult();
List<Guid> ids = new List<Guid>();
for (int i = 0; i < go.ObjectCount; i++)
{
ids.Add(go.Object(i).ObjectId);
}
int index = doc.Groups.Add(ids);
doc.Views.Redraw();
if (index >= 0)
return Rhino.Commands.Result.Success;
return Rhino.Commands.Result.Failure;
}
protected override Result RunCommand(RhinoDoc doc, RunMode mode)
{
ObjRef[] boundary_obj_refs;
var rc = RhinoGet.GetMultipleObjects("Select boundary objects", false, ObjectType.AnyObject, out boundary_obj_refs);
if (rc != Result.Success)
return rc;
if (boundary_obj_refs == null || boundary_obj_refs.Length == 0)
return Result.Nothing;
var gc = new GetObject();
gc.SetCommandPrompt("Select curve to extend");
gc.GeometryFilter = ObjectType.Curve;
gc.GeometryAttributeFilter = GeometryAttributeFilter.OpenCurve;
gc.Get();
if (gc.CommandResult() != Result.Success)
return gc.CommandResult();
var curve_obj_ref = gc.Object(0);
var curve = curve_obj_ref.Curve();
if (curve == null) return Result.Failure;
double t;
if (!curve.ClosestPoint(curve_obj_ref.SelectionPoint(), out t))
return Result.Failure;
var curve_end = t <= curve.Domain.Mid ? CurveEnd.Start : CurveEnd.End;
var geometry = boundary_obj_refs.Select(obj=> obj.Geometry());
var extended_curve = curve.Extend(curve_end, CurveExtensionStyle.Line, geometry);
if (extended_curve != null && extended_curve.IsValid)
{
if (!doc.Objects.Replace(curve_obj_ref.ObjectId, extended_curve))
return Result.Failure;
doc.Views.Redraw();
}
else
{
RhinoApp.WriteLine("No boundary object was intersected so curve not extended");
return Result.Nothing;
}
return Result.Success;
}
public GetResult GetMultiple(int minimumNumber, int maximumNumber)
{
GetObject old = g_active_go;
g_active_go = this;
GeometryFilterCallback cb = null;
Type t = GetType();
// Hook up CustomGeometryFilter virtual function if this is a subclass. This way we
// don't have to pin anything and this class will get collected on the next appropriate GC
if (m_filter != null || t.IsSubclassOf(typeof(GetObject)))
{
cb = CustomGeometryFilter;
}
IntPtr ptr = NonConstPointer();
uint rc = UnsafeNativeMethods.CRhinoGetObject_GetObjects(ptr, minimumNumber, maximumNumber, cb);
g_active_go = old;
return((GetResult)rc);
}
protected override Result RunCommand(RhinoDoc doc, RunMode mode)
{
// select curves to loft
var gs = new GetObject();
gs.SetCommandPrompt("select curves to loft");
gs.GeometryFilter = ObjectType.Curve;
gs.DisablePreSelect();
gs.SubObjectSelect = false;
gs.GetMultiple(2, 0);
if (gs.CommandResult() != Result.Success)
return gs.CommandResult();
var curves = gs.Objects().Select(obj => obj.Curve()).ToList();
var breps = Brep.CreateFromLoft(curves, Point3d.Unset, Point3d.Unset, LoftType.Tight, false);
foreach (var brep in breps)
doc.Objects.AddBrep(brep);
doc.Views.Redraw();
return Result.Success;
}
protected override Result RunCommand(RhinoDoc doc, RunMode mode)
{
var gm = new GetObject();
gm.SetCommandPrompt("Select open mesh");
gm.GeometryFilter = ObjectType.Mesh;
gm.GeometryAttributeFilter = GeometryAttributeFilter.OpenMesh;
gm.Get();
if (gm.CommandResult() != Result.Success)
return gm.CommandResult();
var mesh = gm.Object(0).Mesh();
if (mesh == null)
return Result.Failure;
var polylines = mesh.GetNakedEdges();
foreach (var polyline in polylines)
{
doc.Objects.AddPolyline(polyline);
}
return Result.Success;
}
public static Rhino.Commands.Result Sweep1(Rhino.RhinoDoc doc)
{
Rhino.DocObjects.ObjRef rail_ref;
var rc = RhinoGet.GetOneObject("Select rail curve", false, Rhino.DocObjects.ObjectType.Curve, out rail_ref);
if(rc!=Rhino.Commands.Result.Success)
return rc;
var rail_crv = rail_ref.Curve();
if( rail_crv==null )
return Rhino.Commands.Result.Failure;
var gx = new Rhino.Input.Custom.GetObject();
gx.SetCommandPrompt("Select cross section curves");
gx.GeometryFilter = Rhino.DocObjects.ObjectType.Curve;
gx.EnablePreSelect(false, true);
gx.GetMultiple(1,0);
if( gx.CommandResult() != Rhino.Commands.Result.Success )
return gx.CommandResult();
var cross_sections = new List<Rhino.Geometry.Curve>();
for( int i=0; i<gx.ObjectCount; i++ )
{
var crv = gx.Object(i).Curve();
if( crv!= null)
cross_sections.Add(crv);
}
if( cross_sections.Count<1 )
return Rhino.Commands.Result.Failure;
var sweep = new Rhino.Geometry.SweepOneRail();
sweep.AngleToleranceRadians = doc.ModelAngleToleranceRadians;
sweep.ClosedSweep = false;
sweep.SweepTolerance = doc.ModelAbsoluteTolerance;
sweep.SetToRoadlikeTop();
var breps = sweep.PerformSweep(rail_crv, cross_sections);
for( int i=0; i<breps.Length; i++ )
doc.Objects.AddBrep(breps[i]);
doc.Views.Redraw();
return Rhino.Commands.Result.Success;
}
protected override Result RunCommand(RhinoDoc doc, RunMode mode)
{
// select a surface
var gs = new GetObject();
gs.SetCommandPrompt("select surface");
gs.GeometryFilter = ObjectType.Surface;
gs.DisablePreSelect();
gs.SubObjectSelect = false;
gs.Get();
if (gs.CommandResult() != Result.Success)
return gs.CommandResult();
// get the selected face
var face = gs.Object(0).Face();
if (face == null)
return Result.Failure;
// pick a point on the surface. Constain
// picking to the face.
var gp = new GetPoint();
gp.SetCommandPrompt("select point on surface");
gp.Constrain(face, false);
gp.Get();
if (gp.CommandResult() != Result.Success)
return gp.CommandResult();
// get the parameters of the point on the
// surface that is clesest to gp.Point()
double u, v;
if (face.ClosestPoint(gp.Point(), out u, out v))
{
var direction = face.NormalAt(u, v);
if (face.OrientationIsReversed)
direction.Reverse();
RhinoApp.WriteLine(
string.Format(
"Surface normal at uv({0:f},{1:f}) = ({2:f},{3:f},{4:f})",
u, v, direction.X, direction.Y, direction.Z));
}
return Result.Success;
}
protected override Result RunCommand(RhinoDoc doc, RunMode mode)
{
var go = new GetObject();
go.SetCommandPrompt("Select 2, 3, or 4 open curves");
go.GeometryFilter = ObjectType.Curve;
go.GeometryAttributeFilter = GeometryAttributeFilter.OpenCurve;
go.GetMultiple(2, 4);
if (go.CommandResult() != Result.Success)
return go.CommandResult();
var curves = go.Objects().Select(o => o.Curve());
var brep = Brep.CreateEdgeSurface(curves);
if (brep != null)
{
doc.Objects.AddBrep(brep);
doc.Views.Redraw();
}
return Result.Success;
}
public static Rhino.Commands.Result LineBetweenCurves(Rhino.RhinoDoc doc)
{
Rhino.Input.Custom.GetObject go = new Rhino.Input.Custom.GetObject();
go.SetCommandPrompt("Select two curves");
go.GeometryFilter = Rhino.DocObjects.ObjectType.Curve;
go.GetMultiple(2, 2);
if (go.CommandResult() != Rhino.Commands.Result.Success)
{
return(go.CommandResult());
}
Rhino.DocObjects.ObjRef objRef0 = go.Object(0);
Rhino.DocObjects.ObjRef objRef1 = go.Object(1);
double t0 = Rhino.RhinoMath.UnsetValue;
double t1 = Rhino.RhinoMath.UnsetValue;
Rhino.Geometry.Curve curve0 = objRef0.CurveParameter(out t0);
Rhino.Geometry.Curve curve1 = objRef1.CurveParameter(out t1);
if (null == curve0 || !Rhino.RhinoMath.IsValidDouble(t0) ||
null == curve1 || !Rhino.RhinoMath.IsValidDouble(t1))
{
return(Rhino.Commands.Result.Failure);
}
Rhino.Geometry.Line line = Rhino.Geometry.Line.Unset;
bool rc = Rhino.Geometry.Line.TryCreateBetweenCurves(curve0, curve1, ref t0, ref t1, false, false, out line);
if (rc)
{
if (Guid.Empty != doc.Objects.AddLine(line))
{
doc.Views.Redraw();
return(Rhino.Commands.Result.Success);
}
}
return(Rhino.Commands.Result.Failure);
}
public static Rhino.Commands.Result IntersectCurves(Rhino.RhinoDoc doc)
{
// Select two curves to intersect
var go = new Rhino.Input.Custom.GetObject();
go.SetCommandPrompt("Select two curves");
go.GeometryFilter = Rhino.DocObjects.ObjectType.Curve;
go.GetMultiple(2, 2);
if (go.CommandResult() != Rhino.Commands.Result.Success)
return go.CommandResult();
// Validate input
var curveA = go.Object(0).Curve();
var curveB = go.Object(1).Curve();
if (curveA == null || curveB == null)
return Rhino.Commands.Result.Failure;
// Calculate the intersection
double intersection_tolerance = 0.001;
double overlap_tolerance = 0.0;
var events = Rhino.Geometry.Intersect.Intersection.CurveCurve(curveA, curveB, intersection_tolerance, overlap_tolerance);
// Process the results
if (events != null)
{
for (int i = 0; i < events.Count; i++)
{
var ccx_event = events[i];
doc.Objects.AddPoint(ccx_event.PointA);
if (ccx_event.PointA.DistanceTo(ccx_event.PointB) > double.Epsilon)
{
doc.Objects.AddPoint(ccx_event.PointB);
doc.Objects.AddLine(ccx_event.PointA, ccx_event.PointB);
}
}
doc.Views.Redraw();
}
return Rhino.Commands.Result.Success;
}
public static Rhino.Commands.Result HatchCurve(Rhino.RhinoDoc doc)
{
var go = new Rhino.Input.Custom.GetObject();
go.SetCommandPrompt("Select closed planar curve");
go.GeometryFilter = Rhino.DocObjects.ObjectType.Curve;
go.GeometryAttributeFilter = Rhino.Input.Custom.GeometryAttributeFilter.ClosedCurve;
go.SubObjectSelect = false;
go.Get();
if( go.CommandResult() != Rhino.Commands.Result.Success )
return go.CommandResult();
var curve = go.Object(0).Curve();
if( curve==null || !curve.IsClosed || !curve.IsPlanar() )
return Rhino.Commands.Result.Failure;
string hatch_name = doc.HatchPatterns[doc.HatchPatterns.CurrentHatchPatternIndex].Name;
var rc = Rhino.Input.RhinoGet.GetString("Hatch pattern", true, ref hatch_name);
if( rc!= Rhino.Commands.Result.Success )
return rc;
hatch_name = hatch_name.Trim();
if( string.IsNullOrWhiteSpace(hatch_name) )
return Rhino.Commands.Result.Nothing;
int index = doc.HatchPatterns.Find(hatch_name, true);
if( index < 0 )
{
Rhino.RhinoApp.WriteLine("Hatch pattern does not exist.");
return Rhino.Commands.Result.Nothing;
}
var hatches = Rhino.Geometry.Hatch.Create( curve, index, 0, 1);
for( int i=0; i<hatches.Length; i++ )
doc.Objects.AddHatch(hatches[i]);
if( hatches.Length>0 )
doc.Views.Redraw();
return Rhino.Commands.Result.Success;
}
public static List<GH_LinearDimension> GetLinearDimensions2()
{
GetObject obj2;
Label_0000:
obj2 = new GetObject();
if (m_reference)
{
obj2.SetCommandPrompt("LinearDimension reference");
obj2.AddOption("Mode", "Reference");
}
else
{
obj2.SetCommandPrompt("LinearDimension to copy");
obj2.AddOption("Mode", "Copy");
}
obj2.GeometryFilter = ObjectType.Annotation;
GetResult multiple = obj2.GetMultiple(1, 0);
if (multiple == GetResult.Option)
{
m_reference = !m_reference;
goto Label_0000;
}
if (multiple != GetResult.Object)
{
return null;
}
List<GH_LinearDimension> list2 = new List<GH_LinearDimension>();
for (int i = 0; i < obj2.ObjectCount; i++)
{
if (m_reference)
{
GH_LinearDimension dm = new GH_LinearDimension(obj2.Object(i).ObjectId);
if ((dm != null) && (!dm.IsGeometryLoaded)) { dm.LoadGeometry(); }
list2.Add( dm);
}
else
{
list2.Add(new GH_LinearDimension((LinearDimension)obj2.Object(i).Geometry()));
}
}
return list2;
}
protected override Result RunCommand(RhinoDoc doc, RunMode mode)
{
//pick surface to orient to or block instance to relocate
GetObject gs = new Rhino.Input.Custom.GetObject();
gs.SetCommandPrompt("Surface to orient new object on or BlockInstance to move");
gs.GeometryFilter = Rhino.DocObjects.ObjectType.Surface | Rhino.DocObjects.ObjectType.InstanceReference;
gs.SubObjectSelect = true;
gs.DeselectAllBeforePostSelect = false;
gs.OneByOnePostSelect = true;
gs.Get();
if (gs.CommandResult() != Result.Success)
{
return(gs.CommandResult());
}
Rhino.DocObjects.ObjRef objref = gs.Object(0);
Rhino.DocObjects.RhinoObject obj = objref.Object();
if (obj == null)
{
return(Result.Failure);
}
surface = objref.Surface();
//relocate block instance
if (surface == null)
{
Rhino.DocObjects.InstanceObject instance1 = objref.Object() as Rhino.DocObjects.InstanceObject;
instancePoint = instance1.InsertionPoint;
double g, h;
surface2.ClosestPoint(instancePoint, out g, out h);
var instanceDirection = surface2.NormalAt(g, h);
instancePlane = new Plane(instancePoint, instanceDirection);
Rhino.Input.Custom.GetPoint gpss = new Rhino.Input.Custom.GetPoint();
gpss.SetCommandPrompt("Point on surface to orient to");
gpss.Constrain(surface2, false);
gpss.DynamicDraw += RefObjDraw;
gpss.Tag = instance1;
gpss.Get();
if (gpss.CommandResult() != Rhino.Commands.Result.Success)
{
return(gpss.CommandResult());
}
Point3d ptss = gpss.Point();
surface2.ClosestPoint(ptss, out g, out h);
var direction1 = surface2.NormalAt(g, h);
Plane pl11 = new Plane(ptss, direction1);
Transform iform = Rhino.Geometry.Transform.PlaneToPlane(instancePlane, pl11);
doc.Objects.Transform(instance1, iform, true);
return(Result.Success);
}
obj.Select(false);
//pick objekt to orient
var copy = new Rhino.Input.Custom.OptionToggle(false, "No", "Yes");
GetObject go = new GetObject();
go.SetCommandPrompt("Select object to orient.");
go.AddOptionToggle("Copy", ref copy);
go.SubObjectSelect = true;
go.DeselectAllBeforePostSelect = false;
go.GroupSelect = true;
for (; ;)
{
var res = go.GetMultiple(1, -1);
if (gs.CommandResult() != Result.Success)
{
return(gs.CommandResult());
}
if (res == GetResult.Option)
{
copyBol = copy.CurrentValue;
continue;
}
if (gs.CommandResult() != Result.Success)
{
return(gs.CommandResult());
}
break;
}
int obCount = go.ObjectCount;
string instDefCount = DateTime.Now.ToString("ddMMyyyyHHmmss");
//create block instance and plane for instance
Rhino.Input.Custom.GetPoint gp = new Rhino.Input.Custom.GetPoint();
gp.SetCommandPrompt("Point to orient from");
gp.Get();
if (gp.CommandResult() != Rhino.Commands.Result.Success)
{
return(gp.CommandResult());
}
Vector3d vt1 = new Vector3d(0, 0, 1);
Point3d pt1 = gp.Point();
sourcePlane = new Plane(pt1, vt1);
Plane originPlane = new Plane(Point3d.Origin, vt1);
Transform bform = Rhino.Geometry.Transform.PlaneToPlane(sourcePlane, originPlane);
//block instance
GeometryBase[] obj1List = new GeometryBase[obCount];
List <Brep> opList = new List <Brep>();
for (int igo = 0; igo < obCount; igo++)
{
Rhino.DocObjects.ObjRef objref1 = go.Object(igo);
Rhino.DocObjects.RhinoObject obj1 = objref1.Object();
if (obj == null)
{
return(Result.Failure);
}
obj.Select(false);
Rhino.Geometry.Brep opItem = objref1.Brep();
opList.Add(opItem);
GeometryBase obj1Base = obj1.Geometry;
obj1Base.Transform(bform);
obj1List[igo] = obj1Base;
}
var orientBlock = doc.InstanceDefinitions.Add("Block" + instDefCount, "OrientBlock", Point3d.Origin, obj1List);
//get all go.Objects to .Tag
Brep[] op = new Brep[obCount];
op = Brep.CreateBooleanUnion(opList, 0.01);
Brep od = new Brep();
od = op[0];
var odGuid = doc.Objects.AddBrep(od);
Rhino.DocObjects.ObjRef objref2 = new Rhino.DocObjects.ObjRef(odGuid);
Rhino.DocObjects.RhinoObject objDrw = objref2.Object();
//orient plane to surface
if (copyBol)
{
while (true)
{
Rhino.Input.Custom.GetPoint gps = new Rhino.Input.Custom.GetPoint();
gps.SetCommandPrompt("Point on surface to orient to. Press enter when done.");
gps.Constrain(surface, false);
gps.AcceptNothing(true);
gps.DynamicDraw += RefObjDraw;
gps.Tag = objDrw;
var res = gps.Get();
if (res == GetResult.Nothing)
{
break;
}
//else if (gps.CommandResult() != Rhino.Commands.Result.Success)
// return gps.CommandResult();
Point3d pts = gps.Point();
double u, v;
surface.ClosestPoint(pts, out u, out v);
Vector3d direction = surface.NormalAt(u, v);
Plane pl1 = new Plane(pts, direction);
Rhino.Geometry.Transform xform = Rhino.Geometry.Transform.PlaneToPlane(originPlane, pl1);
doc.Objects.AddInstanceObject(orientBlock, xform);
doc.Objects.Delete(objDrw);
}
copyBol = false;
}
else
{
Rhino.Input.Custom.GetPoint gps = new Rhino.Input.Custom.GetPoint();
gps.SetCommandPrompt("Point on surface to orient to");
gps.Constrain(surface, false);
gps.DynamicDraw += RefObjDraw;
gps.Tag = objDrw;
gps.Get();
if (gps.CommandResult() != Rhino.Commands.Result.Success)
{
return(gps.CommandResult());
}
Point3d pts = gps.Point();
double u, v;
surface.ClosestPoint(pts, out u, out v);
Vector3d direction = surface.NormalAt(u, v);
Plane pl1 = new Plane(pts, direction);
Rhino.Geometry.Transform xform = Rhino.Geometry.Transform.PlaneToPlane(originPlane, pl1);
doc.Objects.AddInstanceObject(orientBlock, xform);
doc.Objects.Delete(objDrw);
}
surface2 = surface;
return(Result.Success);
}
protected override Result RunCommand(RhinoDoc doc, RunMode mode)
{
double tolerance = doc.ModelAbsoluteTolerance;
List <Curve> curves = new List <Curve>();
//Select surface
GetObject gs = new Rhino.Input.Custom.GetObject();
gs.SetCommandPrompt("Surface to orient on");
gs.GeometryFilter = Rhino.DocObjects.ObjectType.Surface;
gs.SubObjectSelect = true;
gs.DeselectAllBeforePostSelect = true;
gs.OneByOnePostSelect = true;
gs.Get();
if (gs.CommandResult() != Result.Success)
{
return(gs.CommandResult());
}
Rhino.DocObjects.ObjRef objref_Surface = gs.Object(0);
Rhino.DocObjects.RhinoObject obj = objref_Surface.Object();
if (obj == null)
{
return(Result.Failure);
}
surface = objref_Surface.Surface();
if (surface == null)
{
return(Result.Failure);
}
obj.Select(false);
//Select Line(s)
GetObject gl = new GetObject();
gl.SetCommandPrompt("Select one or two line(s)");
gl.GeometryFilter = Rhino.DocObjects.ObjectType.Curve;
gl.DeselectAllBeforePostSelect = true;
gl.OneByOnePostSelect = true;
gl.GetMultiple(1, 0);
for (int i = 0; i < gl.ObjectCount; i++)
{
Rhino.DocObjects.ObjRef objref_Line = gl.Object(i);
curve = objref_Line.Curve();
Curve curveRe = curve.Rebuild(60, 3, true);
curves.Add(curveRe);
}
List <Guid> cir_guid_list = new List <Guid>();
if (curves.Count > 1)
{
Curve curve2 = curves[0];
Curve curve3 = curves[1];
if (curve2.IsClosed || curve3.IsClosed)
{
Rhino.UI.Dialogs.ShowMessage("Please only select open curves for two line pave.", "Warning!");
return(Result.Failure);
}
while (true)
{
cir_guid_list = new List <Guid>();
var tweenCurves = Curve.CreateTweenCurvesWithSampling(curve2, curve3, 1, 30, tolerance);
Curve tCurve = tweenCurves[0];
//3 point circle
Point3d po1 = curve2.PointAtStart;
Point3d po2 = curve3.PointAtStart;
LineCurve line1 = new LineCurve(po1, po2);
double[] param = line1.DivideByCount(2, false);
double param1 = param[0];
double param2 = param[0];
double param3 = param[0];
Curve curve1 = line1;
while (true)
{
Circle outCircle = Circle.TryFitCircleTTT(curve1, curve2, curve3, param1, param2, param3);
//circle normal to surface
Point3d outCircleCenter = outCircle.Center;
double outCircleRadius = outCircle.Radius;
double u, v;
surface.ClosestPoint(outCircleCenter, out u, out v);
var direction = surface.NormalAt(u, v);
Point3d surfCenter = surface.PointAt(u, v);
Plane pl1 = new Plane(surfCenter, direction);
Circle circle = new Circle(pl1, surfCenter, outCircleRadius - offSetStone);
Circle circleDist = new Circle(pl1, surfCenter, outCircleRadius + stoneDist);
Guid cir_guid = doc.Objects.AddCircle(circle);
cir_guid_list.Add(cir_guid);
//Cut tween curve at latest circle center
Point3d pointOnCurve;
Point3d pointOnCircle;
Curve circleDistCurve = circleDist.ToNurbsCurve();
tCurve.Domain = new Interval(0, tCurve.GetLength());
Curve[] splitCurves = tCurve.Split(outCircleRadius);
if (splitCurves is null)
{
break;
}
tCurve = splitCurves[splitCurves.Length - 1];
tCurve.ClosestPoints(circleDistCurve, out pointOnCurve, out pointOnCircle);
//Cut tween curve at latest circle border
double curveSplitParam;
tCurve.Domain = new Interval(0, tCurve.GetLength());
tCurve.ClosestPoint(pointOnCurve, out curveSplitParam);
splitCurves = tCurve.Split(curveSplitParam);
if (splitCurves is null)
{
break;
}
tCurve = splitCurves[splitCurves.Length - 1];
//New parameter at curve1
double circleParam;
circleDistCurve.ClosestPoint(pointOnCircle, out circleParam);
param1 = circleParam;
curve1 = circleDistCurve;
//New parameter at curves[0]
double paramCurve0New;
curve2.ClosestPoint(pointOnCircle, out paramCurve0New);
Point3d pointCurve0New = curve2.PointAt(paramCurve0New);
double distNewPoints0 = pointOnCircle.DistanceTo(pointCurve0New);
param2 = paramCurve0New + distNewPoints0;
//New parameter at curves[1]
double paramCurve1New;
curve3.ClosestPoint(pointOnCircle, out paramCurve1New);
Point3d pointCurve1New = curve3.PointAt(paramCurve1New);
double distNewPoints1 = pointOnCircle.DistanceTo(pointCurve1New);
param3 = paramCurve1New + distNewPoints1;
}
doc.Views.Redraw();
//Options
var go = new GetOption();
go.SetCommandPrompt("Set options.");
var stoneOff = new Rhino.Input.Custom.OptionDouble(offSetStone);
var distStone = new Rhino.Input.Custom.OptionDouble(stoneDist);
var boolOption = new Rhino.Input.Custom.OptionToggle(false, "Off", "On");
go.AddOptionDouble("Offset", ref stoneOff);
go.AddOptionDouble("Distance", ref distStone);
go.AddOptionToggle("Reverse", ref boolOption);
go.AcceptNothing(true);
var res = go.Get();
if (res == GetResult.Nothing)
{
break;
}
if (res == GetResult.Cancel)
{
break;
}
foreach (var gui in cir_guid_list)
{
var gu = doc.Objects.Find(gui);
doc.Objects.Delete(gu);
}
offSetStone = stoneOff.CurrentValue;
stoneDist = distStone.CurrentValue;
optionBool = boolOption.CurrentValue;
if (optionBool == true)
{
curve2.Reverse();
curve2 = curve2.Rebuild(60, 3, false);
curve3.Reverse();
curve3 = curve3.Rebuild(60, 3, false);
optionBool = false;
}
}
}
else
{
while (true)
{
cir_guid_list = new List <Guid>();
List <Point3d> points = new List <Point3d>();
double length = (diamStone / 2) + offSetStone;
double crv_length = curve.GetLength();
Point3d point = curve.PointAtLength(length);
points.Add(point);
while (true)
{
length += diamStone + offSetStone;
if (length > crv_length)
{
break;
}
point = curve.PointAtLength(length);
points.Add(point);
}
foreach (var poi in points)
{
double u, v;
surface.ClosestPoint(poi, out u, out v);
var direction = surface.NormalAt(u, v);
double x = direction.X;
double y = direction.Y;
double z = direction.Z;
Vector3d vt1 = new Vector3d(x, y, z);
Plane pl1 = new Plane(poi, vt1);
Circle circle = new Circle(pl1, poi, diamStone / 2);
Guid cir_guid = doc.Objects.AddCircle(circle);
cir_guid_list.Add(cir_guid);
}
doc.Views.Redraw();
//Options
var go = new GetOption();
go.SetCommandPrompt("Set options.");
var stoneDiam = new Rhino.Input.Custom.OptionDouble(diamStone);
var stoneOff = new Rhino.Input.Custom.OptionDouble(offSetStone);
var boolOption = new Rhino.Input.Custom.OptionToggle(false, "Off", "On");
go.AddOptionDouble("StoneDiam", ref stoneDiam);
go.AddOptionDouble("Offset", ref stoneOff);
go.AddOptionToggle("Reverse", ref boolOption);
go.AcceptNothing(true);
var res = go.Get();
if (res == GetResult.Nothing)
{
break;
}
if (res == GetResult.Cancel)
{
break;
}
foreach (var gui in cir_guid_list)
{
var gu = doc.Objects.Find(gui);
doc.Objects.Delete(gu);
}
diamStone = stoneDiam.CurrentValue;
offSetStone = stoneOff.CurrentValue;
optionBool = boolOption.CurrentValue;
if (optionBool == true)
{
curve.Reverse();
}
}
}
doc.Views.Redraw();
doc.Groups.Add(cir_guid_list);
return(Result.Success);
}
protected override Result RunCommand(RhinoDoc doc, RunMode mode)
{
const Rhino.DocObjects.ObjectType geometryFilter = Rhino.DocObjects.ObjectType.Surface | Rhino.DocObjects.ObjectType.PolysrfFilter;
Rhino.DocObjects.ObjRef objref;
Result rc = Rhino.Input.RhinoGet.GetOneObject("Select first/main polysurface or surface to bool",
false, geometryFilter, out objref);
if (rc != Rhino.Commands.Result.Success)
{
return(rc);
}
if (objref == null)
{
return(Rhino.Commands.Result.Failure);
}
Rhino.Geometry.Brep brep = objref.Brep();
bool resIssolid = brep.IsSolid;
if (!resIssolid)
{
Dialogs.ShowMessage("Your polysurface or surface is not solid! Result might not be valid!", "Warning!");
}
Guid firstBrep = objref.ObjectId;
doc.Objects.UnselectAll(true);
//Select rest of polysurfaces or surfaces to bool
Rhino.Input.Custom.GetObject go = new Rhino.Input.Custom.GetObject();
go.SetCommandPrompt("Select rest of polysurfaces or surfaces to bool");
go.GeometryFilter = geometryFilter | Rhino.DocObjects.ObjectType.InstanceReference;
go.GroupSelect = true;
go.GetMultiple(1, 0);
bool isSolid = true;
//Add set to breps list
List <Rhino.Geometry.Brep> breps = new List <Rhino.Geometry.Brep>();
for (int i = 0; i < go.ObjectCount; i++)
{
//Explode if instance object and add to breps list
if (go.Object(i).Object() is InstanceObject)
{
InstanceObject instObj = go.Object(i).Object() as InstanceObject;
RhinoObject[] explodedObjects;
ObjectAttributes[] attributesOfExplodedObjects;
Transform[] transformOfExplodedObjects;
instObj.Explode(false, out explodedObjects, out attributesOfExplodedObjects, out transformOfExplodedObjects);
Guid addedObjectID = doc.Objects.Add(explodedObjects[0].Geometry, explodedObjects[0].Attributes);
ObjRef objrefs = new Rhino.DocObjects.ObjRef(addedObjectID);
Rhino.Geometry.Brep brepd = objrefs.Brep();
brepd.Transform(transformOfExplodedObjects[0]);
resIssolid = brepd.IsSolid;
if (!resIssolid)
{
isSolid = false;
}
if (brepd != null && firstBrep != addedObjectID)
{
breps.Add(brepd);
}
doc.Objects.Delete(addedObjectID, true);
}
else
{
Rhino.DocObjects.ObjRef objrefs = go.Object(i);
Rhino.Geometry.Brep brepd = objrefs.Brep();
resIssolid = brepd.IsSolid;
if (!resIssolid)
{
isSolid = false;
}
if (brepd != null && firstBrep != objrefs.ObjectId)
{
breps.Add(brepd);
}
}
}
if (!isSolid)
{
Dialogs.ShowMessage("At least on polysurface or surface to subtract is not solid! Result might not be valid!", "Warning!");
}
doc.Objects.UnselectAll(true);
//Create layers for failed and successfull booleans if not already existing
var fail_layer_index = doc.Layers.FindName("FJ Boolean Fails");
if (fail_layer_index == null)
{
string name_fail_layer = "FJ Boolean Fails";
Rhino.DocObjects.Layer boolFail = new Rhino.DocObjects.Layer();
boolFail.Name = name_fail_layer;
boolFail.Color = System.Drawing.Color.Red;
doc.Layers.Add(boolFail);
fail_layer_index = doc.Layers.FindName(name_fail_layer);
}
var done_layer_index = doc.Layers.FindName("FJ Boolean Done");
if (done_layer_index == null)
{
string name_done_layer = "FJ Boolean Done";
Rhino.DocObjects.Layer boolDone = new Rhino.DocObjects.Layer();
boolDone.Name = name_done_layer;
boolDone.Color = System.Drawing.Color.BlueViolet;
doc.Layers.Add(boolDone);
done_layer_index = doc.Layers.FindName(name_done_layer);
}
//Compute boolean union
double tolerance = doc.ModelAbsoluteTolerance;
int a = 0;
for (int i = 0; i < breps.Count; i++)
{
RhinoApp.WriteLine("computing number: " + i + " of: " + breps.Count + " operations...");
List <Brep> brepBool = new List <Brep>();
brepBool.Add(brep);
brepBool.Add(breps[i]);
Rhino.Geometry.Brep[] brepBoolNew = Rhino.Geometry.Brep.CreateBooleanUnion(brepBool, tolerance, true);
if (brepBoolNew == null || brepBoolNew.Length > 1)
{
a++;
doc.Objects.Delete(go.Object(i).Object());
var boolresultfail = doc.Objects.AddBrep(breps[i]);
ObjRef objFailref = new ObjRef(boolresultfail);
Rhino.DocObjects.RhinoObject objFail = objFailref.Object();
objFail.Attributes.LayerIndex = fail_layer_index.Index;
objFail.CommitChanges();
}
else
{
brep = brepBoolNew[0];
doc.Objects.Delete(go.Object(i).Object());
var boolresult = doc.Objects.AddBrep(breps[i]);
ObjRef obj20ref = new ObjRef(boolresult);
Rhino.DocObjects.RhinoObject obj2Org = obj20ref.Object();
obj2Org.Attributes.LayerIndex = done_layer_index.Index;
obj2Org.CommitChanges();
}
doc.Views.Redraw();
}
RhinoApp.WriteLine(a + " of " + breps.Count + " operations failed!");
Rhino.DocObjects.RhinoObject obj1Org = objref.Object();
doc.Objects.Delete(obj1Org);
doc.Objects.AddBrep(brep);
doc.Views.Redraw();
return(Rhino.Commands.Result.Success);
}
protected override Result RunCommand(RhinoDoc doc, RunMode mode)
{
const Rhino.DocObjects.ObjectType geometryFilter = Rhino.DocObjects.ObjectType.Point;
Rhino.Input.Custom.GetObject go = new Rhino.Input.Custom.GetObject();
go.SetCommandPrompt("Pick all the points that you want to change to reinforcement.");
go.GeometryFilter = geometryFilter;
go.GroupSelect = true;
go.SubObjectSelect = false;
go.EnableClearObjectsOnEntry(false);
go.EnableUnselectObjectsOnExit(false);
go.DeselectAllBeforePostSelect = false;
bool bHavePreselectedObjects = false;
for (;;)
{
Rhino.Input.GetResult res = go.GetMultiple(1, 0);
/*
* if (res == Rhino.Input.GetResult.Option)
* {
* go.EnablePreSelect(false, true);
* continue;
* }
* else if (res != Rhino.Input.GetResult.Option)
* {
* return Rhino.Commands.Result.Cancel;
* }
*/
if (go.ObjectsWerePreselected)
{
bHavePreselectedObjects = true;
go.EnablePreSelect(false, true);
continue;
}
break;
}
List <Point3d> points = new List <Point3d>();
if (bHavePreselectedObjects)
{
for (int i = 0; i < go.ObjectCount; i++)
{
RhinoObject rhinoObject = go.Object(i).Object();
if (null != rhinoObject)
{
rhinoObject.Select(false);
}
}
doc.Views.Redraw();
}
int layerIndex = getLayerIndex(doc, "Reinforcement");
doc.Layers[layerIndex].Color = Color.Black;
if (layerIndex == 999)
{
return(Result.Failure);
}
ObjRef[] objects = go.Objects();
foreach (ObjRef obj in objects)
{
Point3d point = obj.Point().Location;
//TODO add the functionality how to assign different steel materials.
Reinforcement reinf = new Reinforcement
{
Material = new SteelMaterial("B500B"),
BasePoint = point,
Diameter = 8
};
ObjectAttributes attr = new ObjectAttributes();
attr.UserData.Add(reinf);
attr.SetUserString("Name", "Reinforcement");
attr.LayerIndex = layerIndex;
//Unused code to create a hatch around the point
/*
* doc.Objects.AddCurve(reinf.OutLine,attr);
* ObjectAttributes attrHatch = new ObjectAttributes();
* attrHatch.LayerIndex = layerIndex;
* doc.Objects.AddHatch(reinf.Hatch, attrHatch);
*/
doc.Objects.ModifyAttributes(obj, attr, true);
}
return(Result.Success);
}
protected override Result RunCommand(RhinoDoc doc, RunMode mode)
{
// --- Set tolerance
_unit = doc.ModelAbsoluteTolerance;
// --- Get Mesh
var getMesh = new GetObject { GeometryFilter = ObjectType.Mesh };
getMesh.SetCommandPrompt("Select mesh");
while (true)
{
var getMeshResult = getMesh.Get();
if (getMesh.CommandResult() != Result.Success)
return getMesh.CommandResult();
if (getMeshResult == GetResult.Object)
break;
}
_mesh = (Mesh)getMesh.Object(0).Geometry();
doc.Objects.UnselectAll();
// --- Start preview
DisplayPipeline.DrawOverlay += DisplayPipelineOnDrawOverlay;
// --- Get options
var getOptions = new GetOption();
getOptions.SetCommandPrompt("Settings:");
getOptions.AddOptionInteger("CountX", ref _countX);
getOptions.AddOptionInteger("CountY", ref _countY);
getOptions.AddOptionDouble("Thickness", ref _thickness);
getOptions.AddOption("Plane");
getOptions.AddOptionDouble("Deeper", ref _deeper);
getOptions.AddOptionToggle("DeleteInput", ref _deleteSource);
getOptions.AddOptionToggle("Project", ref _project);
getOptions.AddOptionDouble("ProjectSpace", ref _projectSpace);
getOptions.AcceptNothing(true);
do
{
doc.Views.Redraw();
getOptions.Get();
switch (getOptions.Result())
{
case GetResult.Option:
switch (getOptions.Option().EnglishName)
{
case "Plane":
_plane = PlaneGetter.GetPlane() ?? _plane;
break;
}
break;
}
} while (getOptions.CommandResult() == Result.Success && getOptions.Result() != GetResult.Nothing);
// --- Stop preview
DisplayPipeline.DrawOverlay -= DisplayPipelineOnDrawOverlay;
// --- Check for cancel with ESC
if (getOptions.Result() == GetResult.Cancel)
return Result.Cancel;
// --- Execute
var result = Waffle.Create(_mesh, _plane, _thickness.CurrentValue, _deeper.CurrentValue, _countX.CurrentValue, _countY.CurrentValue, _unit, _project.CurrentValue, _projectSpace.CurrentValue);
// --- Add objects
foreach (var curves in result.CurvesX)
doc.Groups.Add(curves.Select(o => doc.Objects.AddCurve(o)));
foreach (var curves in result.CurvesY)
doc.Groups.Add(curves.Select(o => doc.Objects.AddCurve(o)));
// --- Delete input
if (_deleteSource.CurrentValue)
doc.Objects.Delete(getMesh.Object(0).ObjectId, true);
// --- Update views
doc.Views.Redraw();
return Result.Success;
}
protected override Result RunCommand(RhinoDoc doc, RunMode mode)
{
double tolerance = doc.ModelAbsoluteTolerance;
double angleTolerance = doc.ModelAngleToleranceRadians;
List <Curve> icur = new List <Curve>();
GetObject gcr = new Rhino.Input.Custom.GetObject();
gcr.SetCommandPrompt("Select reference circles for prongs. (No curves)");
gcr.GeometryFilter = Rhino.DocObjects.ObjectType.Curve;
gcr.GroupSelect = true;
gcr.SubObjectSelect = true;
gcr.DeselectAllBeforePostSelect = true;
gcr.OneByOnePostSelect = false;
gcr.GetMultiple(1, 0);
for (int ie = 0; ie < gcr.ObjectCount; ie++)
{
Rhino.DocObjects.ObjRef objref = gcr.Object(ie);
Rhino.DocObjects.RhinoObject obj = objref.Object();
if (obj == null)
{
return(Result.Failure);
}
Curve refcr = objref.Curve();
if (refcr == null)
{
return(Result.Failure);
}
obj.Select(false);
icur.Add(refcr);
}
while (true)
{
m_escape_key_pressed = false;
RhinoApp.EscapeKeyPressed += RhinoApp_EscapeKeyPressed;
Point3d pt0 = new Point3d(0, 0, hight);
Point3d pt1 = new Point3d(0, 0, -(length - hight));
double rotationRadiant = ((rotation / 180) * 3.1415);
List <Point3d> curvePoints = new List <Point3d>()
{
pt0, pt1
};
Curve prongCurve = Curve.CreateInterpolatedCurve(curvePoints, 3);
if (!capBool)
{
capMode = PipeCapMode.Flat;
}
else if (capBool)
{
capMode = PipeCapMode.Round;
}
Brep[] cylBrep1 = Brep.CreatePipe(prongCurve, prongDia / 2, false, capMode, false, tolerance, angleTolerance);
Brep cylBrep2 = cylBrep1[0];
cylBrep2.Faces.RemoveAt(2);
Brep cylBrep3 = cylBrep2.CapPlanarHoles(tolerance);
if (capBool)
{
Vector3d scaleVec = new Vector3d(0, 0, 1);
var scalePlane = new Plane(pt0, scaleVec);
var capScale = Transform.Scale(scalePlane, 1.0, 1.0, capHight);
var surf2 = cylBrep3.Faces[1].UnderlyingSurface();
NurbsSurface nurbSurf2 = surf2.ToNurbsSurface();
nurbSurf2.Transform(capScale);
Brep capBrep = nurbSurf2.ToBrep();
cylBrep3.Append(capBrep);
cylBrep3.Faces.RemoveAt(1);
}
cylBrep3.Compact();
cylBrep3.JoinNakedEdges(tolerance);
string instDefCount = DateTime.Now.ToString("ddMMyyyyHHmmss");
Brep[] brepArray = new Brep[1] {
cylBrep3
};
var prongIndex = doc.InstanceDefinitions.Add("Prong" + instDefCount, "RefProng", Point3d.Origin, brepArray);
foreach (Curve c in icur)
{
Circle circleProngs = new Circle();
c.TryGetCircle(out circleProngs, tolerance);
NurbsCurve curveProngs = circleProngs.ToNurbsCurve();
Plane planeNew = circleProngs.Plane;
Vector3d plVec = planeNew.Normal;
if (planeNew == null)
{
curveProngs.DivideByCount(3, true, out Point3d[] curveProngsPoints);
planeNew = new Plane(curvePoints[0], curveProngsPoints[1], curveProngsPoints[2]);
}
Curve[] offsetCurveArray = curveProngs.Offset(planeNew, prongDia / 4, tolerance, CurveOffsetCornerStyle.Sharp);
Curve offsetCurve = offsetCurveArray[0];
double[] segParameters = offsetCurve.DivideByCount(prongCount, true);
List <Point3d> prongPoints = new List <Point3d>();
List <Guid> idsInter = new List <Guid>();
foreach (double p in segParameters)
{
Point3d zen = new Point3d(0, 0, 0);
Point3d prongPoint = offsetCurve.PointAt(p);
Point3d center = circleProngs.Center;
Vector3d moveV = new Vector3d(prongPoint);
Vector3d zaxis = new Vector3d(0.0, 0.0, 1.0);
Plane planeOr = new Plane(zen, zaxis);
Plane plane = new Plane(prongPoint, plVec);
var transform1 = Transform.PlaneToPlane(planeOr, plane);
var transform2 = Transform.Rotation(rotationRadiant, plVec, center);
var prongA = doc.Objects.AddInstanceObject(prongIndex, transform1);
var prongB = doc.Objects.Transform(prongA, transform2, true);
ids.Add(prongB);
}
doc.Views.Redraw();
}
GetOption go = new Rhino.Input.Custom.GetOption();
go.SetCommandPrompt("Set prong parameters.");
go.AcceptNothing(true);
var countProng = new Rhino.Input.Custom.OptionInteger(prongCount);
var diaProng = new Rhino.Input.Custom.OptionDouble(prongDia);
var hightProng = new Rhino.Input.Custom.OptionDouble(hight);
var lengthProng = new Rhino.Input.Custom.OptionDouble(length);
var rotProng = new Rhino.Input.Custom.OptionDouble(rotation);
var capProng = new Rhino.Input.Custom.OptionToggle(capBool, "Flat", "Round");
var hightCap = new Rhino.Input.Custom.OptionDouble(capHight);
go.AddOptionInteger("Count", ref countProng);
go.AddOptionDouble("Diameter", ref diaProng);
go.AddOptionDouble("Hight", ref hightProng);
go.AddOptionDouble("Length", ref lengthProng);
go.AddOptionDouble("Rotation", ref rotProng);
go.AddOptionToggle("Cap", ref capProng);
if (capBool)
{
go.AddOptionDouble("Caphight", ref hightCap);
}
GetResult res = go.Get();
if (m_escape_key_pressed)
{
break;
}
hight = hightProng.CurrentValue;
length = lengthProng.CurrentValue;
prongCount = countProng.CurrentValue;
prongDia = diaProng.CurrentValue;
rotation = rotProng.CurrentValue;
capBool = capProng.CurrentValue;
capHight = hightCap.CurrentValue;
if (length <= 0.0)
{
length = 1.0;
}
if (prongCount <= 0)
{
prongCount = 1;
}
if (prongDia <= 0.0)
{
prongDia = 1.0;
}
if (res == GetResult.Nothing)
{
break;
}
doc.Objects.Delete(ids, true);
}
RhinoApp.EscapeKeyPressed -= RhinoApp_EscapeKeyPressed;
doc.Groups.Add(ids);
return(Result.Success);
}
protected override Result RunCommand(RhinoDoc doc, RunMode mode)
{
//pick objects to expand
Rhino.Input.Custom.GetObject go = new Rhino.Input.Custom.GetObject();
go.SetCommandPrompt("Select objects to expand");
go.GroupSelect = true;
go.SubObjectSelect = false;
go.EnableClearObjectsOnEntry(false);
go.EnableUnselectObjectsOnExit(false);
go.DeselectAllBeforePostSelect = false;
go.GetMultiple(1, 0);
//Compute center
Point3d centersAdd = new Point3d();
for (int i = 0; i < go.ObjectCount; i++)
{
BoundingBox bbObj = go.Object(i).Geometry().GetBoundingBox(true);
Point3d bbObjCenter = bbObj.Center;
centers.Add(bbObjCenter);
centersAdd += bbObjCenter;
Rhino.DocObjects.ObjRef objref = go.Object(i);
// get selected surface object
Rhino.DocObjects.RhinoObject obj = objref.Object();
goList.Add(obj);
}
Point3d allCenter = centersAdd / centers.Count;
//pick center
GetPoint gp = new GetPoint();
gp.SetCommandPrompt("Basepoint. Press Enter for automatic.");
gp.AcceptNothing(true);
var resgp = gp.Get();
if (resgp == GetResult.Nothing)
{
scaleCenter = allCenter;
}
else
{
scaleCenter = gp.Point();
}
//Expansion factor
GetPoint gp2 = new GetPoint();
gp2.SetCommandPrompt("Expansion factor or first reference point <" + factor + ">");
gp2.DrawLineFromPoint(scaleCenter, true);
gp2.AcceptNumber(true, true);
GetResult gr = gp2.Get();
Rhino.Display.RhinoView view = gp2.View();
plane2D = view.ActiveViewport.ConstructionPlane();
if (gr == GetResult.Number)
{
factor = gp2.Number();
}
if (gr == GetResult.Point)
{
scaleRefPoint = gp2.Point();
Line line1 = new Line(scaleCenter, scaleRefPoint);
Guid tempLine = doc.Objects.AddLine(line1);
Guid tempPoint = doc.Objects.AddPoint(scaleRefPoint);
if (scaleCenter == gp2.Point())
{
return(Rhino.Commands.Result.Cancel);
}
GetPoint gp3 = new GetPoint();
gp3.SetCommandPrompt("Secondt reference point");
gp3.AddOptionList("ScaleDimension", dimensions, 0);
gp3.DrawLineFromPoint(scaleCenter, true);
gp3.DynamicDraw += RefObjDraw;
while (true)
{
GetResult res = gp3.Get();
if (res == GetResult.Option)
{
dimensionIndex = gp3.Option().CurrentListOptionIndex;
continue;
}
else if (res == GetResult.Point)
{
Point3d scaleRefPoint2 = gp3.Point();
factor = (scaleCenter.DistanceTo(scaleRefPoint2)) / (scaleCenter.DistanceTo(scaleRefPoint));
doc.Objects.Delete(tempLine, true);
doc.Objects.Delete(tempPoint, true);
}
break;
}
}
RhinoApp.WriteLine("Expantion factor: " + factor);
//Compute translation
//Translate 3d
if (dimensionIndex == 0)
{
for (int i = 0; i < go.ObjectCount; i++)
{
Vector3d vec = (centers[i] - scaleCenter) * (factor - 1);
var xform = Transform.Translation(vec);
doc.Objects.Transform(go.Object(i), xform, true);
}
}
//Translate 2d
else if (dimensionIndex == 1)
{
for (int i = 0; i < go.ObjectCount; i++)
{
Rhino.Geometry.Vector3d vec = (centers[i] - scaleCenter) * (factor - 1);
Vector3d planeNormal = plane2D.Normal;
if (planeNormal[0] != 0)
{
vec.X = 0;
}
else if (planeNormal[1] != 0)
{
vec.Y = 0;
}
else if (planeNormal[2] != 0)
{
vec.Z = 0;
}
var xform = Rhino.Geometry.Transform.Translation(vec);
doc.Objects.Transform(go.Object(i), xform, true);
}
}
//Translate 1d
else if (dimensionIndex == 2)
{
for (int i = 0; i < go.ObjectCount; i++)
{
Vector3d vecEach = (centers[i] - scaleCenter);
double vecEachLength = vecEach.Length * (factor - 1);
Vector3d vec = (scaleRefPoint - scaleCenter);
double angleVec = Vector3d.VectorAngle(vecEach, vec);
int pol = 1;
if (angleVec > 1.57)
{
pol = -1;
}
vec.Unitize();
vec = vec * vecEachLength * pol;
var xform = Transform.Translation(vec);
doc.Objects.Transform(go.Object(i), xform, true);
}
}
goList = new List <Object>();
centers = new List <Point3d>();
dimensionIndex = 0;
plane2D = new Plane();
doc.Views.Redraw();
return(Result.Success);
}
protected override Result RunCommand(RhinoDoc doc, RunMode mode)
{
// TODO: complete command.
var filter = Rhino.DocObjects.ObjectType.Brep | Rhino.DocObjects.ObjectType.Surface;
Rhino.DocObjects.ObjRef objref;
Result rc = Rhino.Input.RhinoGet.GetOneObject("Select surface or brep to unroll", false, filter, out objref);
if (rc != Rhino.Commands.Result.Success)
{
return(rc);
}
Rhino.Geometry.Unroller unroll = null;
Rhino.Geometry.Brep brep = objref.Brep();
if (brep != null)
{
unroll = new Rhino.Geometry.Unroller(brep);
}
else
{
Rhino.Geometry.Surface srf = objref.Surface();
if (srf != null)
{
unroll = new Rhino.Geometry.Unroller(srf);
}
}
if (unroll == null)
{
return(Rhino.Commands.Result.Cancel);
}
unroll.AbsoluteTolerance = 0.01;
unroll.RelativeTolerance = 0.01;
Rhino.Input.Custom.GetObject go = new Rhino.Input.Custom.GetObject();
go.SetCommandPrompt("Select points, curves, and dots to unroll with surface");
go.GeometryFilter = Rhino.DocObjects.ObjectType.Point | Rhino.DocObjects.ObjectType.Curve | Rhino.DocObjects.ObjectType.TextDot;
go.AcceptNothing(true);
go.GetMultiple(0, 0);
if (go.CommandResult() != Rhino.Commands.Result.Success)
{
return(go.CommandResult());
}
for (int i = 0; i < go.ObjectCount; i++)
{
objref = go.Object(i);
Rhino.Geometry.GeometryBase g = objref.Geometry();
Rhino.Geometry.Point pt = g as Rhino.Geometry.Point;
Rhino.Geometry.Curve crv = g as Rhino.Geometry.Curve;
Rhino.Geometry.TextDot dot = g as Rhino.Geometry.TextDot;
if (pt != null)
{
unroll.AddFollowingGeometry(pt.Location);
}
else if (crv != null)
{
unroll.AddFollowingGeometry(crv);
}
else if (dot != null)
{
unroll.AddFollowingGeometry(dot);
}
}
unroll.ExplodeOutput = false;
Rhino.Geometry.Curve[] curves;
Rhino.Geometry.Point3d[] points;
Rhino.Geometry.TextDot[] dots;
Rhino.Geometry.Brep[] breps = unroll.PerformUnroll(out curves, out points, out dots);
if (breps == null || breps.Length < 1)
{
return(Rhino.Commands.Result.Failure);
}
for (int i = 0; i < breps.Length; i++)
{
doc.Objects.AddBrep(breps[i]);
}
for (int i = 0; i < curves.Length; i++)
{
doc.Objects.AddCurve(curves[i]);
}
doc.Objects.AddPoints(points);
for (int i = 0; i < dots.Length; i++)
{
doc.Objects.AddTextDot(dots[i]);
}
doc.Views.Redraw();
return(Rhino.Commands.Result.Success);
}
protected override Result RunCommand(RhinoDoc doc, RunMode mode)
{
//select the cross-section faces
var gc = new Rhino.Input.Custom.GetObject();
gc.SetCommandPrompt("Select the surfaces which form the cross-section of the beam.");
gc.GeometryFilter = Rhino.DocObjects.ObjectType.Surface;
gc.EnablePreSelect(false, true);
gc.GetMultiple(1, 1);
if (gc.CommandResult() != Rhino.Commands.Result.Success)
{
return(gc.CommandResult());
}
var face = gc.Object(0).Face();
//for each cross-section, get the base-surface curve
var gv = new Rhino.Input.Custom.GetObject();
gv.SetCommandPrompt("Select the base_curve.");
gv.GeometryFilter = Rhino.DocObjects.ObjectType.Curve;
gv.EnablePreSelect(false, true);
gv.GetMultiple(1, 1);
if (gv.CommandResult() != Rhino.Commands.Result.Success)
{
return(gv.CommandResult());
}
var base_curve = gv.Object(0).Curve();
//List of all the sub section
List <Brep> sub_sections = new List <Brep>();
for (int i = 0; i < 10; i++)
{
//offset the base to form a closed loop
var curves = base_curve.OffsetOnSurface(face, 0.1, doc.ModelAbsoluteTolerance);
if (curves.Length > 1)
{
Rhino.RhinoApp.WriteLine("More than one offset");
return(Result.Failure);
}
var offset_curve = curves[0];
//connect the curves in a closed loop
LineCurve edge1 = new LineCurve(base_curve.PointAtStart, offset_curve.PointAtStart);
LineCurve edge2 = new LineCurve(offset_curve.PointAtEnd, base_curve.PointAtEnd);
List <Curve> prejoin = new List <Curve>();
prejoin.Add(edge1);
prejoin.Add(edge2);
prejoin.Add(base_curve);
prejoin.Add(offset_curve);
var loops = Curve.JoinCurves(prejoin, doc.ModelAbsoluteTolerance);
if (loops.Length > 1)
{
Rhino.RhinoApp.WriteLine("More than one joined loops");
return(Result.Failure);
}
var loop = loops[0];
var breps = Rhino.Geometry.Brep.CreatePlanarBreps(loop);
if (breps.Length > 1)
{
Rhino.RhinoApp.WriteLine("More than one joined loops");
return(Result.Failure);
}
sub_sections.Add(breps[0]);
doc.Objects.AddBrep(breps[0]);
doc.Views.Redraw();
base_curve = offset_curve;
}
//compute moment of inertia
var area_properties1 = Rhino.Geometry.AreaMassProperties.Compute(sub_sections);
var area_properties2 = Rhino.Geometry.AreaMassProperties.Compute(face);
//check for the difference
Rhino.RhinoApp.WriteLine("Area {0}", area_properties1.Area);
Rhino.RhinoApp.WriteLine("Difference in Area {0}", area_properties1.Area - area_properties2.Area);
Rhino.RhinoApp.WriteLine("Moment X: {0}; Y: {1}; Z: {2} in WCS ", area_properties1.WorldCoordinatesMomentsOfInertia.X, area_properties1.WorldCoordinatesMomentsOfInertia.Y, area_properties1.WorldCoordinatesMomentsOfInertia.Z);
Rhino.RhinoApp.WriteLine("Difference in Moment X: {0}; Y: {1}; Z: {2} in WCS", area_properties1.WorldCoordinatesMomentsOfInertia.X - area_properties2.WorldCoordinatesMomentsOfInertia.X, area_properties1.WorldCoordinatesMomentsOfInertia.Y - area_properties2.WorldCoordinatesMomentsOfInertia.Y, area_properties1.WorldCoordinatesMomentsOfInertia.Z - area_properties2.WorldCoordinatesMomentsOfInertia.Z);
//display the centroids
doc.Objects.AddPoint(area_properties1.Centroid);
doc.Objects.AddPoint(area_properties2.Centroid);
doc.Views.Redraw();
return(Result.Success);
}
public GetResult GetMultiple(int minimumNumber, int maximumNumber)
{
GetObject old = m_active_go;
m_active_go = this;
GeometryFilterCallback cb = null;
Type t = GetType();
// Hook up CustomGeometryFilter virtual function is this is a subclass. This way we
// don't have to pin anything and this class will get collected on the next appropriate GC
if (t.IsSubclassOf(typeof(GetObject)))
cb = CustomGeometryFilter;
IntPtr ptr = NonConstPointer();
uint rc = UnsafeNativeMethods.CRhinoGetObject_GetObjects(ptr, minimumNumber, maximumNumber, cb);
m_active_go = old;
return (GetResult)rc;
}
public static Rhino.Commands.Result CreateBlock(Rhino.RhinoDoc doc)
{
// Select objects to define block
var go = new Rhino.Input.Custom.GetObject();
go.SetCommandPrompt( "Select objects to define block" );
go.ReferenceObjectSelect = false;
go.SubObjectSelect = false;
go.GroupSelect = true;
// Phantoms, grips, lights, etc., cannot be in blocks.
var forbidden_geometry_filter = Rhino.DocObjects.ObjectType.Light |
Rhino.DocObjects.ObjectType.Grip | Rhino.DocObjects.ObjectType.Phantom;
var geometry_filter = forbidden_geometry_filter ^ Rhino.DocObjects.ObjectType.AnyObject;
go.GeometryFilter = geometry_filter;
go.GetMultiple(1, 0);
if (go.CommandResult() != Rhino.Commands.Result.Success)
return go.CommandResult();
// Block base point
Rhino.Geometry.Point3d base_point;
var rc = Rhino.Input.RhinoGet.GetPoint("Block base point", false, out base_point);
if (rc != Rhino.Commands.Result.Success)
return rc;
// Block definition name
string idef_name = "";
rc = Rhino.Input.RhinoGet.GetString("Block definition name", false, ref idef_name);
if (rc != Rhino.Commands.Result.Success)
return rc;
// Validate block name
idef_name = idef_name.Trim();
if (string.IsNullOrEmpty(idef_name))
return Rhino.Commands.Result.Nothing;
// See if block name already exists
Rhino.DocObjects.InstanceDefinition existing_idef = doc.InstanceDefinitions.Find(idef_name, true);
if (existing_idef != null)
{
Rhino.RhinoApp.WriteLine("Block definition {0} already exists", idef_name);
return Rhino.Commands.Result.Nothing;
}
// Gather all of the selected objects
var geometry = new System.Collections.Generic.List<Rhino.Geometry.GeometryBase>();
var attributes = new System.Collections.Generic.List<Rhino.DocObjects.ObjectAttributes>();
for (int i = 0; i < go.ObjectCount; i++)
{
var rhinoObject = go.Object(i).Object();
if (rhinoObject != null)
{
geometry.Add(rhinoObject.Geometry);
attributes.Add(rhinoObject.Attributes);
}
}
// Gather all of the selected objects
int idef_index = doc.InstanceDefinitions.Add(idef_name, string.Empty, base_point, geometry, attributes);
if( idef_index < 0 )
{
Rhino.RhinoApp.WriteLine("Unable to create block definition", idef_name);
return Rhino.Commands.Result.Failure;
}
return Rhino.Commands.Result.Failure;
}
protected override Result RunCommand(RhinoDoc doc, RunMode mode)
{
bool allBrepSolid = true;
const Rhino.DocObjects.ObjectType geometryFilter = Rhino.DocObjects.ObjectType.Brep | Rhino.DocObjects.ObjectType.Mesh;
GetObject wro = new Rhino.Input.Custom.GetObject();
wro.SetCommandPrompt("Select objects to weight.");
wro.GeometryFilter = geometryFilter;
wro.SubObjectSelect = true;
wro.DeselectAllBeforePostSelect = false;
wro.OneByOnePostSelect = true;
wro.GetMultiple(1, 0);
double volObj3 = 0;
for (int i = 0; i < wro.ObjectCount; i++)
{
Rhino.DocObjects.ObjRef objref = wro.Object(i);
// get selected surface object
Rhino.DocObjects.RhinoObject obj = objref.Object();
if (obj == null)
{
return(Result.Failure);
}
// get selected surface (face)
Brep refcr = objref.Brep();
if (refcr != null)
{
var volObj = VolumeMassProperties.Compute(refcr);
double volObj2 = refcr.GetVolume();
volObj3 = volObj3 + volObj2;
bool brepSolid = refcr.IsSolid;
if (brepSolid == false)
{
allBrepSolid = false;
}
}
if (refcr == null)
{
Mesh refcm = objref.Mesh();
Brep refmb = Brep.CreateFromMesh(refcm, false);
var volOb = VolumeMassProperties.Compute(refmb);
double volObj4 = refmb.GetVolume();
volObj3 = volObj3 + volObj4;
bool brepSolid = refmb.IsSolid;
if (brepSolid == false)
{
allBrepSolid = false;
}
}
}
double gold18k = Math.Round(volObj3 * 0.0158, 2, MidpointRounding.AwayFromZero);
double gold14k = Math.Round(volObj3 * 0.0146, 2, MidpointRounding.AwayFromZero);
double platinum = Math.Round(volObj3 * 0.0214, 2, MidpointRounding.AwayFromZero);
double palladium = Math.Round(volObj3 * 0.012, 2, MidpointRounding.AwayFromZero);
double silver925 = Math.Round(volObj3 * 0.0102, 2, MidpointRounding.AwayFromZero);
double diaCt = Math.Round(volObj3 * 0.01755, 2, MidpointRounding.AwayFromZero);
if (allBrepSolid)
{
RhinoApp.WriteLine("The weight is: Gold 18k " + gold18k + "g, Gold 14k " + gold14k + "g, Platinum " + platinum + "g, Palladium " + palladium + "g, Silver 925 " + silver925 + "g, Diamond" + diaCt + "Ct");
}
else
{
RhinoApp.WriteLine("AT LEAST ONE OBJECT IS OPEN! Result might be false!" + "The weight is: Gold 18k " + gold18k + "g, Gold 14k " + gold14k + "g, Platinum " + platinum + "g, Palladium " + palladium + "g, Silver 925 " + silver925 + "g, Diamond" + diaCt + "Ct");
}
return(Result.Success);
}
protected override Result RunCommand(RhinoDoc doc, RunMode mode)
{
var go = new Rhino.Input.Custom.GetObject();
go.SetCommandPrompt("Select edge of surface to extend");
go.GeometryFilter = ObjectType.EdgeFilter;
go.GeometryAttributeFilter = GeometryAttributeFilter.EdgeCurve;
go.Get();
if (go.CommandResult() != Result.Success)
{
return(go.CommandResult());
}
var obj_ref = go.Object(0);
var surface = obj_ref.Surface();
if (surface == null)
{
RhinoApp.WriteLine("Unable to extend polysurfaces.");
return(Result.Failure);
}
var brep = obj_ref.Brep();
var face = obj_ref.Face();
if (brep == null || face == null)
{
return(Result.Failure);
}
if (face.FaceIndex < 0)
{
return(Result.Failure);
}
if (!brep.IsSurface)
{
RhinoApp.WriteLine("Unable to extend trimmed surfaces.");
return(Result.Nothing);
}
var curve = obj_ref.Curve();
var trim = obj_ref.Trim();
if (trim == null)
{
return(Result.Failure);
}
if (trim.TrimType == BrepTrimType.Seam)
{
RhinoApp.WriteLine("Unable to extend surface at seam.");
return(Result.Nothing);
}
var extended_surface = surface.Extend(trim.IsoStatus, 5.0, true);
if (extended_surface != null)
{
var mybrep = Brep.CreateFromSurface(extended_surface);
doc.Objects.Replace(obj_ref.ObjectId, mybrep);
doc.Views.Redraw();
}
return(Result.Success);
}
protected override Result RunCommand(RhinoDoc doc, RunMode mode)
{
//select the cross-section faces
var gb = new Rhino.Input.Custom.GetObject();
gb.SetCommandPrompt("Select the surfaces which form the cross-section of the beam.");
gb.GeometryFilter = Rhino.DocObjects.ObjectType.Surface;
gb.EnablePreSelect(false, true);
gb.GetMultiple(1, 0);
if (gb.CommandResult() != Rhino.Commands.Result.Success)
{
return(gb.CommandResult());
}
List <BrepFace> cross_section = new List <BrepFace>();
for (int i = 0; i < gb.ObjectCount; i++)
{
var face = gb.Object(i).Face();
if (face != null)
{
cross_section.Add(face);
}
}
//select the rail
Rhino.DocObjects.ObjRef rail_ref;
var rc = RhinoGet.GetOneObject("Select rail curve", false, Rhino.DocObjects.ObjectType.Curve, out rail_ref);
if (rc != Rhino.Commands.Result.Success)
{
return(rc);
}
var rail_crv = rail_ref.Curve();
if (rail_crv == null)
{
return(Rhino.Commands.Result.Failure);
}
var gx = new Rhino.Input.Custom.GetObject();
gx.SetCommandPrompt("Select cross section curves");
gx.GeometryFilter = Rhino.DocObjects.ObjectType.Curve;
gx.EnablePreSelect(false, true);
gx.GetMultiple(1, 0);
if (gx.CommandResult() != Rhino.Commands.Result.Success)
{
return(gx.CommandResult());
}
var cross_sections = new List <Rhino.Geometry.Curve>();
for (int i = 0; i < gx.ObjectCount; i++)
{
var crv = gx.Object(i).Curve();
if (crv != null)
{
cross_sections.Add(crv);
}
}
if (cross_sections.Count < 1)
{
return(Rhino.Commands.Result.Failure);
}
var sweep = new Rhino.Geometry.SweepOneRail();
sweep.AngleToleranceRadians = doc.ModelAngleToleranceRadians;
sweep.ClosedSweep = false;
sweep.SweepTolerance = doc.ModelAbsoluteTolerance;
//sweep.SetToRoadlikeTop();
var breps = sweep.PerformSweep(rail_crv, cross_sections);
for (int i = 0; i < breps.Length; i++)
{
doc.Objects.AddBrep(breps[i]);
}
doc.Views.Redraw();
return(Rhino.Commands.Result.Success);
}
protected override Result RunCommand(RhinoDoc doc, RunMode mode)
{
var myTypes = ObjectType.AnyObject ^ ObjectType.BrepLoop;
//pick objects to expand
Rhino.Input.Custom.GetObject go = new Rhino.Input.Custom.GetObject();
go.SetCommandPrompt("Select objects to scale");
go.GeometryFilter = myTypes;
//go.GroupSelect = true;
go.SubObjectSelect = true;
//go.EnableClearObjectsOnEntry(false);
//go.EnableUnselectObjectsOnExit(false);
//go.DeselectAllBeforePostSelect = false;
go.GetMultiple(1, 0);
//Compute center
Point3d centersAdd = new Point3d();
for (int i = 0; i < go.ObjectCount; i++)
{
BoundingBox bbObj = go.Object(i).Geometry().GetBoundingBox(true);
Point3d bbObjCenter = bbObj.Center;
centers.Add(bbObjCenter);
centersAdd += bbObjCenter;
Rhino.DocObjects.ObjRef objref = go.Object(i);
// get selected surface object
Rhino.DocObjects.RhinoObject obj = objref.Object();
dynRef.Add(objref);
}
Point3d allCenter = centersAdd / centers.Count;
//pick center
GetPoint gp = new GetPoint();
gp.SetCommandPrompt("Basepoint. Press Enter for automatic.");
gp.AcceptNothing(true);
var resgp = gp.Get();
if (resgp == GetResult.Nothing)
{
scaleCenter = allCenter;
}
else
{
scaleCenter = gp.Point();
}
Rhino.Display.RhinoView view = gp.View();
plane2D = view.ActiveViewport.ConstructionPlane();
//Expansion factor
GetPoint gp2 = new GetPoint();
gp2.SetCommandPrompt("Scale factor or first reference point <" + factor + ">");
gp2.DrawLineFromPoint(scaleCenter, true);
gp2.AcceptNumber(true, true);
GetResult gr = gp2.Get();
if (gr == GetResult.Number)
{
factor = gp2.Number();
}
if (gr == GetResult.Point)
{
scaleRefPoint = gp2.Point();
Line line1 = new Line(scaleCenter, scaleRefPoint);
Guid tempLine = doc.Objects.AddLine(line1);
Guid tempPoint = doc.Objects.AddPoint(scaleRefPoint);
if (scaleCenter == gp2.Point())
{
return(Rhino.Commands.Result.Cancel);
}
GetPoint gp3 = new GetPoint();
gp3.SetCommandPrompt("Secondt reference point");
gp3.AddOptionList("ScaleDimension", dimensions, 0);
gp3.DrawLineFromPoint(scaleCenter, true);
gp3.DynamicDraw += RefObjDraw;
while (true)
{
GetResult res = gp3.Get();
if (res == GetResult.Option)
{
dimensionIndex = gp3.Option().CurrentListOptionIndex;
continue;
}
else if (res == GetResult.Point)
{
Point3d scaleRefPoint2 = gp3.Point();
factor = (scaleCenter.DistanceTo(scaleRefPoint2)) / (scaleCenter.DistanceTo(scaleRefPoint));
doc.Objects.Delete(tempLine, true);
doc.Objects.Delete(tempPoint, true);
}
break;
}
}
RhinoApp.WriteLine("Scale factor: " + factor);
//Compute translation
//Translate 3d
if (dimensionIndex == 0)
{
for (int i = 0; i < go.ObjectCount; i++)
{
var xform = Transform.Scale(centers[i], factor);
var objref = go.Object(i);
var brep = objref.Brep();
var index = objref.GeometryComponentIndex.Index;
if (index > 0)
{
brep.TransformComponent(new[] { objref.GeometryComponentIndex }, xform, doc.ModelAbsoluteTolerance, 0, true);
doc.Objects.Replace(objref.ObjectId, brep);
}
else
{
doc.Objects.Transform(go.Object(i), xform, true);
}
}
}
//Translate 2d
else if (dimensionIndex == 1)
{
for (int i = 0; i < go.ObjectCount; i++)
{
plane2D.Origin = centers[i];
var xform = Rhino.Geometry.Transform.Scale(plane2D, factor, factor, 1);
var objref = go.Object(i);
var brep = objref.Brep();
var index = objref.GeometryComponentIndex.Index;
if (index > 0)
{
brep.TransformComponent(new[] { objref.GeometryComponentIndex }, xform, doc.ModelAbsoluteTolerance, 0, true);
doc.Objects.Replace(objref.ObjectId, brep);
}
else
{
doc.Objects.Transform(go.Object(i), xform, true);
}
}
}
//Translate 1d
else if (dimensionIndex == 2)
{
for (int i = 0; i < go.ObjectCount; i++)
{
Vector3d vec = (scaleRefPoint - scaleCenter);
Plane scalePlane = new Plane(centers[i], vec);
var xform = Transform.Scale(scalePlane, 1, 1, factor);
var objref = go.Object(i);
var brep = objref.Brep();
var index = objref.GeometryComponentIndex.Index;
if (index > 0)
{
brep.TransformComponent(new[] { objref.GeometryComponentIndex }, xform, doc.ModelAbsoluteTolerance, 0, true);
doc.Objects.Replace(objref.ObjectId, brep);
}
else
{
doc.Objects.Transform(go.Object(i), xform, true);
}
}
}
centers = new List <Point3d>();
dimensionIndex = 0;
plane2D = new Plane();
dynRef = new List <Rhino.DocObjects.ObjRef>();
doc.Views.Redraw();
return(Result.Success);
}
//Creates reinforcement objects and saves them into the selected point as userData
public static Reinforcement[] CreateReinforcements(string mName, double diam)
{
RhinoDoc doc = RhinoDoc.ActiveDoc;
//Allow user to pick multiple objects
const Rhino.DocObjects.ObjectType geometryFilter = Rhino.DocObjects.ObjectType.Point;
Rhino.Input.Custom.GetObject go = new Rhino.Input.Custom.GetObject()
{
GeometryFilter = geometryFilter,
GroupSelect = true,
SubObjectSelect = false,
DeselectAllBeforePostSelect = false
};
go.SetCommandPrompt("Pick all the points that you want to change to reinforcement.");
go.EnableClearObjectsOnEntry(false);
go.EnableUnselectObjectsOnExit(false);
bool bHavePreselectedObjects = false;
for (;;)
{
Rhino.Input.GetResult res = go.GetMultiple(1, 0);
if (go.ObjectsWerePreselected)
{
bHavePreselectedObjects = true;
go.EnablePreSelect(false, true);
continue;
}
break;
}
//Unselects the preselected objects
if (bHavePreselectedObjects)
{
for (int i = 0; i < go.ObjectCount; i++)
{
RhinoObject rhinoObject = go.Object(i).Object();
if (null != rhinoObject)
{
rhinoObject.Select(false);
}
}
doc.Views.Redraw();
}
int layerIndex = GetOrCreateLayer(doc, "Reinforcement", Color.Black);
if (layerIndex == 999)
{
return new Reinforcement[] {}
}
;
Reinforcement[] reinfList = { };
//Create reinforcement objects for each selected points
ObjRef[] objects = go.Objects();
if (objects != null)
{
reinfList = CreateReinfObjs(doc, objects, layerIndex, mName, diam);
}
return(reinfList);
}
protected override Result RunCommand(RhinoDoc doc, RunMode mode)
{
double tolerance = doc.ModelAbsoluteTolerance;
List <Curve> icur = new List <Curve>();
GetObject gcr = new Rhino.Input.Custom.GetObject();
gcr.SetCommandPrompt("Select reference circles for drill. (No curves)");
gcr.GeometryFilter = Rhino.DocObjects.ObjectType.Curve;
gcr.GroupSelect = true;
gcr.SubObjectSelect = true;
gcr.DeselectAllBeforePostSelect = true;
gcr.OneByOnePostSelect = false;
gcr.GetMultiple(1, 0);
for (int ie = 0; ie < gcr.ObjectCount; ie++)
{
Rhino.DocObjects.ObjRef objref = gcr.Object(ie);
Rhino.DocObjects.RhinoObject obj = objref.Object();
if (obj == null)
{
return(Result.Failure);
}
Curve refcr = objref.Curve();
if (refcr == null)
{
return(Result.Failure);
}
obj.Select(false);
icur.Add(refcr);
}
while (true)
{
m_escape_key_pressed = false;
RhinoApp.EscapeKeyPressed += RhinoApp_EscapeKeyPressed;
List <Curve> curveDrill = new List <Curve>();
Point3d centerTop = new Point3d(0, 0, (headDrill + topDrill) * drillScale);
Circle circleTop = new Circle(centerTop, ancheadDrill / 2 * drillScale);
Curve curveTop = circleTop.ToNurbsCurve();
curveDrill.Add(curveTop);
Point3d centerMid = new Point3d(0, 0, topDrill * drillScale);
Circle circleMid = new Circle(centerMid, drillScale / 2);
Curve curveMid = circleMid.ToNurbsCurve();
curveDrill.Add(curveMid);
Circle circleBase = new Circle(drillScale / 2);
Curve curveBase = circleBase.ToNurbsCurve();
curveDrill.Add(curveBase);
Point3d centerLow = new Point3d(0, 0, -midDrill * drillScale);
Circle circleLow = new Circle(centerLow, ancDrill / 2 * drillScale);
Curve curveLow = circleLow.ToNurbsCurve();
curveDrill.Add(curveLow);
if (bottDrill != 0)
{
Point3d centerBot = new Point3d(0, 0, (-midDrill - bottDrill) * drillScale);
Circle circleBot = new Circle(centerBot, ancDrill / 2 * drillScale);
Curve curveBot = circleBot.ToNurbsCurve();
curveDrill.Add(curveBot);
}
Brep[] cylBrep1 = Brep.CreateFromLoft(curveDrill, Point3d.Unset, Point3d.Unset, LoftType.Straight, false);
Brep[] cylBrep2 = Brep.CreateBooleanUnion(cylBrep1, tolerance);
Brep cylBrepFinal = cylBrep1[0];
cylBrepFinal = cylBrepFinal.CapPlanarHoles(tolerance);
string instDefCount = DateTime.Now.ToString("ddMMyyyyHHmmss");
Brep[] brepArray = new Brep[1] {
cylBrepFinal
};
var drillIndex = doc.InstanceDefinitions.Add("Drill" + instDefCount, "RefDrill 1mm", Point3d.Origin, brepArray);
foreach (Curve c in icur)
{
Circle circleDrill = new Circle();
c.TryGetCircle(out circleDrill, tolerance);
double radiusDrill = circleDrill.Diameter;
Point3d center = circleDrill.Center;
Vector3d moveV = new Vector3d(center);
Vector3d zaxis = new Vector3d(0.0, 0.0, 1.0);
Plane planeOr = new Plane(center, zaxis);
Plane planeNew = circleDrill.Plane;
var transform1 = Transform.Translation(moveV);
var transform2 = Transform.Scale(center, radiusDrill);
var transform3 = Transform.PlaneToPlane(planeOr, planeNew);
var stoneA = doc.Objects.AddInstanceObject(drillIndex, transform1);
var stoneB = doc.Objects.Transform(stoneA, transform2, true);
var stoneC = doc.Objects.Transform(stoneB, transform3, true);
ids.Add(stoneC);
doc.Views.Redraw();
}
GetOption go = new Rhino.Input.Custom.GetOption();
go.SetCommandPrompt("Set drill parameters.");
go.AcceptNothing(true);
var drillHead = new Rhino.Input.Custom.OptionDouble(headDrill);
var drillAncHead = new Rhino.Input.Custom.OptionDouble(ancheadDrill);
var drillTop = new Rhino.Input.Custom.OptionDouble(topDrill);
var drillMid = new Rhino.Input.Custom.OptionDouble(midDrill);
var drillAnc = new Rhino.Input.Custom.OptionDouble(ancDrill);
var drillBott = new Rhino.Input.Custom.OptionDouble(bottDrill);
var scaleDrill = new Rhino.Input.Custom.OptionDouble(drillScale);
go.AddOptionDouble("Top", ref drillHead);
go.AddOptionDouble("TopAngle", ref drillAncHead);
go.AddOptionDouble("Mid", ref drillTop);
go.AddOptionDouble("Bottom", ref drillMid);
go.AddOptionDouble("BottomAngle", ref drillAnc);
go.AddOptionDouble("Tail", ref drillBott);
go.AddOptionDouble("Scale", ref scaleDrill);
GetResult res = go.Get();
if (m_escape_key_pressed)
{
break;
}
topDrill = drillTop.CurrentValue;
midDrill = drillMid.CurrentValue;
ancDrill = drillAnc.CurrentValue;
bottDrill = drillBott.CurrentValue;
drillScale = scaleDrill.CurrentValue;
headDrill = drillHead.CurrentValue;
ancheadDrill = drillAncHead.CurrentValue;
if (res == GetResult.Nothing)
{
break;
}
doc.Objects.Delete(ids, true);
}
RhinoApp.EscapeKeyPressed -= RhinoApp_EscapeKeyPressed;
doc.Groups.Add(ids);
return(Result.Success);
}
public static Rhino.Commands.Result Splop(Rhino.RhinoDoc doc)
{
ObjectType filter = SpaceMorphObjectFilter();
Rhino.DocObjects.ObjRef objref;
Rhino.Commands.Result rc = Rhino.Input.RhinoGet.GetOneObject("Select object to splop", false, filter, out objref);
if (rc != Rhino.Commands.Result.Success || objref == null)
return rc;
Rhino.Geometry.Plane plane = doc.Views.ActiveView.ActiveViewport.ConstructionPlane();
Rhino.Input.Custom.GetObject go = new Rhino.Input.Custom.GetObject();
go.SetCommandPrompt("Surface to splop on");
go.GeometryFilter = Rhino.DocObjects.ObjectType.Surface;
go.SubObjectSelect = false;
go.EnablePreSelect(false, true);
go.DeselectAllBeforePostSelect = false;
go.Get();
if (go.CommandResult() != Rhino.Commands.Result.Success)
return go.CommandResult();
Rhino.DocObjects.ObjRef srfref = go.Object(0);
double u, v;
srfref.SurfaceParameter(out u, out v);
Rhino.Geometry.Point2d uv = new Rhino.Geometry.Point2d(u,v);
Rhino.Geometry.Morphs.SplopSpaceMorph morph = new Rhino.Geometry.Morphs.SplopSpaceMorph(plane, srfref.Surface(), uv);
Rhino.Geometry.GeometryBase geom = objref.Geometry().Duplicate();
if (morph.Morph(geom))
{
doc.Objects.Add(geom);
doc.Views.Redraw();
}
return Rhino.Commands.Result.Success;
}
protected override Result RunCommand(RhinoDoc doc, RunMode mode)
{
int currIntOption = 0;
var gi = new GetOption();
gi.SetCommandPrompt("Material Index");
gi.AcceptNumber(true, true);
var resgi = gi.Get();
if (resgi == GetResult.Number)
{
currIntOption = Convert.ToInt32(gi.Number());
}
Rhino.Input.Custom.GetObject go = new Rhino.Input.Custom.GetObject();
go.SetCommandPrompt("Select objects to apply material");
go.GroupSelect = true;
go.SubObjectSelect = false;
go.EnableClearObjectsOnEntry(false);
go.EnableUnselectObjectsOnExit(false);
go.DeselectAllBeforePostSelect = false;
go.GetMultiple(1, 0);
//Nothing to do - get out quick.
if (go.ObjectCount == 0)
{
return(Result.Success);
}
var rm = FindMaterial(doc, matName[currIntOption]);
if (null == rm)
{
//Didn't find the material - create one and carry on.
//Create a basic material
var custom = new Rhino.DocObjects.Material();
custom.Name = matName[currIntOption];
if (currIntOption == 13)
{
custom.SetEnvironmentTexture(Environment.GetFolderPath(Environment.SpecialFolder.ApplicationData) + "/Free Jewels Rhino Plug-Ins/Dia3.jpg");
}
custom.CommitChanges();
rm = RenderMaterial.CreateBasicMaterial(custom);
rm.BeginChange(RenderContent.ChangeContexts.Program);
rm.SetParameter("diffuse", System.Drawing.Color.Black);
rm.SetParameter("reflectivity", 1.0);
rm.SetParameter("reflectivity-color", System.Drawing.Color.FromArgb(r[currIntOption], g[currIntOption], b[currIntOption]));
rm.SetParameter("transparency", fjMatTrans[currIntOption]);
rm.SetParameter("shine", fjMatShine[currIntOption]);
rm.SetParameter("polish-amount", fjMatShine[currIntOption]);
rm.EndChange();
var docMats = doc.RenderMaterials;
docMats.Add(rm);
}
//Now we always have a material to assign, this part is easy
for (int i = 0; i < go.ObjectCount; i++)
{
var obj = go.Object(i).Object();
obj.RenderMaterial = rm;
obj.CommitChanges();
}
doc.Views.Redraw();
return(Result.Success);
}
protected override Result RunCommand(RhinoDoc doc, RunMode mode)
{
Mesh meshSurf;
List <Guid> ids = new List <Guid>();
double tolerance = doc.ModelAbsoluteTolerance;
const Rhino.DocObjects.ObjectType geometryFilter = Rhino.DocObjects.ObjectType.Surface |
Rhino.DocObjects.ObjectType.PolysrfFilter |
Rhino.DocObjects.ObjectType.Mesh;
GetObject gs = new Rhino.Input.Custom.GetObject();
gs.SetCommandPrompt("Surface to orient on");
gs.GeometryFilter = geometryFilter;
gs.SubObjectSelect = true;
gs.DeselectAllBeforePostSelect = true;
gs.OneByOnePostSelect = true;
gs.Get();
if (gs.CommandResult() != Result.Success)
{
return(gs.CommandResult());
}
Rhino.DocObjects.ObjRef objref = gs.Object(0);
Rhino.DocObjects.RhinoObject obj = objref.Object();
if (obj == null)
{
return(Result.Failure);
}
brepSurf = objref.Brep();
if (brepSurf == null)
{
meshSurf = objref.Mesh();
brepSurf = Brep.CreateFromMesh(meshSurf, true);
}
if (brepSurf == null)
{
return(Result.Failure);
}
obj.Select(false);
while (true)
{
w_key_pressed = false;
s_key_pressed = false;
a_key_pressed = false;
d_key_pressed = false;
m_escape_key_pressed = false;
RhinoApp.EscapeKeyPressed += RhinoApp_EscapeKeyPressed;
RhinoApp.KeyboardEvent += OnRhinoKeyboardEvent;
Point3d pt0;
GetPoint getPointAction = new GetPoint();
getPointAction.SetCommandPrompt("Please select insert point(s) on surface.");
getPointAction.Constrain(brepSurf, -1, -1, false);
var stoneDiam = new Rhino.Input.Custom.OptionDouble(diamStone);
var stoneOff = new Rhino.Input.Custom.OptionDouble(offSetStone);
var boolOption = new Rhino.Input.Custom.OptionToggle(false, "Off", "On");
var moveOption = new Rhino.Input.Custom.OptionToggle(false, "Off", "On");
getPointAction.AddOptionDouble("StoneDiam", ref stoneDiam);
getPointAction.AddOptionDouble("Offset", ref stoneOff);
getPointAction.AddOptionToggle("Delete", ref boolOption);
getPointAction.AddOptionToggle("Move", ref moveOption);
getPointAction.DynamicDraw += RefCircleDraw;
getPointAction.Tag = obj;
getPointAction.AcceptString(false);
getPointAction.AcceptNothing(true);
var res = getPointAction.Get();
if (w_key_pressed || s_key_pressed)
{
RhinoApp.KeyboardEvent -= OnRhinoKeyboardEvent;
w_key_pressed = false;
s_key_pressed = false;
stoneDiam.CurrentValue = diamStone;
}
if (a_key_pressed || d_key_pressed)
{
RhinoApp.KeyboardEvent -= OnRhinoKeyboardEvent;
a_key_pressed = false;
d_key_pressed = false;
stoneOff.CurrentValue = offSetStone;
}
if (res == GetResult.Nothing)
{
break;
}
if (m_escape_key_pressed)
{
break;
}
diamStone = stoneDiam.CurrentValue;
offSetStone = stoneOff.CurrentValue;
optionBool = boolOption.CurrentValue;
moveBool = moveOption.CurrentValue;
RhinoApp.KeyboardEvent -= OnRhinoKeyboardEvent;
if (moveBool == true)
{
RhinoApp.KeyboardEvent -= OnRhinoKeyboardEvent;
while (true)
{
GetObject gcd = new Rhino.Input.Custom.GetObject();
gcd.SetCommandPrompt("Select circle(s) to move. Press enter when done");
gcd.GeometryFilter = Rhino.DocObjects.ObjectType.Curve;
gcd.SubObjectSelect = false;
gcd.DeselectAllBeforePostSelect = true;
gcd.AcceptNothing(true);
if (gcd.Get() == GetResult.Nothing)
{
break;
}
gcd.Get();
Rhino.DocObjects.ObjRef delobjref = gcd.Object(0);
Rhino.DocObjects.RhinoObject delobj = delobjref.Object();
Curve curveRadius = delobjref.Curve();
Circle circleRadius = new Circle();
curveRadius.TryGetCircle(out circleRadius, tolerance);
diamStone = circleRadius.Diameter;
doc.Objects.Delete(delobj, true);
doc.Views.Redraw();
getPointAction.Get();
pt0 = getPointAction.Point();
Point3d closestPoint;
ComponentIndex compIndex;
double u, v;
Vector3d vt1;
brepSurf.ClosestPoint(pt0, out closestPoint, out compIndex, out u, out v, 0.01, out vt1);
Plane pl1 = new Plane(pt0, vt1);
Circle cr1 = new Circle(pl1, pt0, diamStone / 2);
var crgu = doc.Objects.AddCircle(cr1);
ids.Add(crgu);
doc.Views.Redraw();
}
moveBool = false;
}
if (optionBool == true)
{
RhinoApp.KeyboardEvent -= OnRhinoKeyboardEvent;
while (true)
{
GetObject gcd = new Rhino.Input.Custom.GetObject();
gcd.SetCommandPrompt("Select circle(s) to delete. Press enter when done");
gcd.GeometryFilter = Rhino.DocObjects.ObjectType.Curve;
gcd.SubObjectSelect = false;
gcd.DeselectAllBeforePostSelect = true;
gcd.AcceptNothing(true);
if (gcd.Get() == GetResult.Nothing)
{
break;
}
gcd.Get();
Rhino.DocObjects.ObjRef delobjref = gcd.Object(0);
Rhino.DocObjects.RhinoObject delobj = delobjref.Object();
Curve curveRadius = delobjref.Curve();
Circle circleRadius = new Circle();
curveRadius.TryGetCircle(out circleRadius, tolerance);
diamStone = circleRadius.Diameter;
doc.Objects.Delete(delobj, true);
doc.Views.Redraw();
}
optionBool = false;
}
if (res == GetResult.Point)
{
pt0 = getPointAction.Point();
Point3d closestPoint;
ComponentIndex compIndex;
double u, v;
Vector3d vt1;
brepSurf.ClosestPoint(pt0, out closestPoint, out compIndex, out u, out v, 0.01, out vt1);
Plane pl1 = new Plane(pt0, vt1);
Circle cr1 = new Circle(pl1, pt0, diamStone / 2);
var crgu = doc.Objects.AddCircle(cr1);
ids.Add(crgu);
doc.Views.Redraw();
}
}
RhinoApp.KeyboardEvent -= OnRhinoKeyboardEvent;
RhinoApp.EscapeKeyPressed -= RhinoApp_EscapeKeyPressed;
doc.Groups.Add(ids);
return(Result.Success);
}
public static Rhino.Commands.Result CreateBlock(Rhino.RhinoDoc doc)
{
// Select objects to define block
var go = new Rhino.Input.Custom.GetObject();
go.SetCommandPrompt("Select objects to define block");
go.ReferenceObjectSelect = false;
go.SubObjectSelect = false;
go.GroupSelect = true;
// Phantoms, grips, lights, etc., cannot be in blocks.
const ObjectType forbidden_geometry_filter = Rhino.DocObjects.ObjectType.Light |
Rhino.DocObjects.ObjectType.Grip | Rhino.DocObjects.ObjectType.Phantom;
const ObjectType geometry_filter = forbidden_geometry_filter ^ Rhino.DocObjects.ObjectType.AnyObject;
go.GeometryFilter = geometry_filter;
go.GetMultiple(1, 0);
if (go.CommandResult() != Rhino.Commands.Result.Success)
{
return(go.CommandResult());
}
// Block base point
Rhino.Geometry.Point3d base_point;
var rc = Rhino.Input.RhinoGet.GetPoint("Block base point", false, out base_point);
if (rc != Rhino.Commands.Result.Success)
{
return(rc);
}
// Block definition name
string idef_name = "";
rc = Rhino.Input.RhinoGet.GetString("Block definition name", false, ref idef_name);
if (rc != Rhino.Commands.Result.Success)
{
return(rc);
}
// Validate block name
idef_name = idef_name.Trim();
if (string.IsNullOrEmpty(idef_name))
{
return(Rhino.Commands.Result.Nothing);
}
// See if block name already exists
Rhino.DocObjects.InstanceDefinition existing_idef = doc.InstanceDefinitions.Find(idef_name, true);
if (existing_idef != null)
{
Rhino.RhinoApp.WriteLine("Block definition {0} already exists", idef_name);
return(Rhino.Commands.Result.Nothing);
}
// Gather all of the selected objects
var geometry = new System.Collections.Generic.List <Rhino.Geometry.GeometryBase>();
var attributes = new System.Collections.Generic.List <Rhino.DocObjects.ObjectAttributes>();
for (int i = 0; i < go.ObjectCount; i++)
{
var rhinoObject = go.Object(i).Object();
if (rhinoObject != null)
{
geometry.Add(rhinoObject.Geometry);
attributes.Add(rhinoObject.Attributes);
}
}
// Gather all of the selected objects
int idef_index = doc.InstanceDefinitions.Add(idef_name, string.Empty, base_point, geometry, attributes);
if (idef_index < 0)
{
Rhino.RhinoApp.WriteLine("Unable to create block definition", idef_name);
return(Rhino.Commands.Result.Failure);
}
return(Rhino.Commands.Result.Failure);
}
protected override Result RunCommand(RhinoDoc doc, RunMode mode)
{
double tolerance = doc.ModelAbsoluteTolerance;
List <Curve> icur = new List <Curve>();
GetObject gcr = new Rhino.Input.Custom.GetObject();
gcr.SetCommandPrompt("Select reference circles for stones. (No curves)");
gcr.GeometryFilter = Rhino.DocObjects.ObjectType.Curve;
gcr.GroupSelect = true;
gcr.SubObjectSelect = true;
gcr.DeselectAllBeforePostSelect = true;
gcr.OneByOnePostSelect = false;
gcr.GetMultiple(1, 0);
for (int ie = 0; ie < gcr.ObjectCount; ie++)
{
Rhino.DocObjects.ObjRef objref = gcr.Object(ie);
Rhino.DocObjects.RhinoObject obj = objref.Object();
if (obj == null)
{
return(Result.Failure);
}
Curve refcr = objref.Curve();
if (refcr == null)
{
return(Result.Failure);
}
obj.Select(false);
icur.Add(refcr);
}
var rm = FindMaterial(doc, "Diamond");
if (null == rm)
{
//Didn't find the material - create one and carry on.
//Create a basic material
var custom = new Rhino.DocObjects.Material();
custom.Reflectivity = 1;
custom.Transparency = 0.2;
custom.SetEnvironmentTexture(Environment.GetFolderPath(Environment.SpecialFolder.ApplicationData) + "/Free Jewels Rhino Plug-Ins/Dia3.jpg");
custom.Name = "Diamond";
custom.CommitChanges();
rm = RenderMaterial.CreateBasicMaterial(custom);
var docMats = doc.RenderMaterials;
//docMats.BeginChange(RenderContent.ChangeContexts.Program);
docMats.Add(rm);
//docMats.EndChange();
}
// Create Stone Mesh
Rhino.Geometry.Mesh mesh = new Rhino.Geometry.Mesh();
mesh.Vertices.Add(0.0, 0.0, -0.44); //0
mesh.Vertices.Add(0.0, 0.097, -0.363); //1
mesh.Vertices.Add(0.069, 0.069, -0.363); //2
mesh.Vertices.Add(0.097, 0.0, -0.363); //3
mesh.Vertices.Add(0.0, 0.5, -0.013); //4
mesh.Vertices.Add(0.098, 0.49, -0.005); //5
mesh.Vertices.Add(0.191, 0.462, -0.013); //6
mesh.Vertices.Add(0.278, 0.416, -0.005); //7
mesh.Vertices.Add(0.354, 0.354, -0.013); //8
mesh.Vertices.Add(0.416, 0.278, -0.005); //9
mesh.Vertices.Add(0.462, 0.191, -0.013); //10
mesh.Vertices.Add(0.49, 0.098, -0.005); //11
mesh.Vertices.Add(0.5, 0.0, -0.013); //12
mesh.Vertices.Add(0.0, 0.5, 0.013); //13
mesh.Vertices.Add(0.098, 0.49, 0.005); //14
mesh.Vertices.Add(0.191, 0.462, 0.013); //15
mesh.Vertices.Add(0.278, 0.416, 0.005); //16
mesh.Vertices.Add(0.354, 0.354, 0.013); //17
mesh.Vertices.Add(0.416, 0.278, 0.005); //18
mesh.Vertices.Add(0.462, 0.191, 0.013); //19
mesh.Vertices.Add(0.49, 0.098, 0.005); //20
mesh.Vertices.Add(0.5, 0.0, 0.013); //21
mesh.Vertices.Add(0.0, 0.372, 0.12); //22
mesh.Vertices.Add(0.263, 0.263, 0.12); //23
mesh.Vertices.Add(0.372, 0.0, 0.12); //24
mesh.Vertices.Add(0.263, -0.263, 0.12); //25
mesh.Vertices.Add(0.0, -0.372, 0.12); //26
mesh.Vertices.Add(-0.263, -0.263, 0.12); //27
mesh.Vertices.Add(-0.372, 0.0, 0.12); //28
mesh.Vertices.Add(-0.263, 0.263, 0.12); //29
mesh.Vertices.Add(0.109, 0.263, 0.16); //30
mesh.Vertices.Add(0.263, 0.109, 0.16); //31
mesh.Vertices.Add(0.263, -0.109, 0.16); //32
mesh.Vertices.Add(0.109, -0.263, 0.16); //33
mesh.Vertices.Add(-0.109, -0.263, 0.16); //34
mesh.Vertices.Add(-0.263, -0.109, 0.16); //35
mesh.Vertices.Add(-0.263, 0.109, 0.16); //36
mesh.Vertices.Add(-0.109, 0.263, 0.16); //37
mesh.Vertices.Add(0.0, 0.0, 0.16); //38
mesh.Faces.AddFace(0, 1, 6, 2);
mesh.Faces.AddFace(0, 2, 10, 3);
mesh.Faces.AddFace(1, 4, 5, 6);
mesh.Faces.AddFace(2, 6, 7, 8);
mesh.Faces.AddFace(2, 8, 9, 10);
mesh.Faces.AddFace(3, 10, 11, 12);
mesh.Faces.AddFace(4, 13, 14, 5);
mesh.Faces.AddFace(5, 14, 15, 6);
mesh.Faces.AddFace(6, 15, 16, 7);
mesh.Faces.AddFace(7, 16, 17, 8);
mesh.Faces.AddFace(8, 17, 18, 9);
mesh.Faces.AddFace(9, 18, 19, 10);
mesh.Faces.AddFace(10, 19, 20, 11);
mesh.Faces.AddFace(11, 20, 21, 12);
mesh.Faces.AddFace(13, 22, 15, 14);
mesh.Faces.AddFace(15, 23, 17, 16);
mesh.Faces.AddFace(17, 23, 19, 18);
mesh.Faces.AddFace(19, 24, 21, 20);
mesh.Faces.AddFace(15, 22, 30, 23);
mesh.Faces.AddFace(19, 23, 31, 24);
mesh.Faces.AddFace(23, 30, 31);
mesh.Faces.AddFace(24, 31, 32);
mesh.Faces.AddFace(32, 31, 30, 38);
mesh.Unweld(0.001, false);
Mesh meshAll = new Mesh();
for (int i = 0; i < 4; i++)
{
meshAll.Append(mesh);
Point3d center = new Point3d(0.0, 0.0, 0.0);
Vector3d rotVec = new Vector3d(0.0, 0.0, 1.0);
mesh.Rotate(Math.PI / 2, rotVec, center);
}
meshAll.Compact();
meshAll.Weld(0.001);
//Get object Guid to apply render material
var meshGuid = doc.Objects.AddMesh(meshAll);
ObjRef objre = new ObjRef(meshGuid);
RhinoObject obje = objre.Object();
obje.RenderMaterial = rm;
obje.CommitChanges();
//Make InstanceDefinition
string instDefCount = DateTime.Now.ToString("ddMMyyyyHHmmss");
var geometry = new System.Collections.Generic.List <Rhino.Geometry.GeometryBase>()
{
obje.Geometry
};
var attributes = new System.Collections.Generic.List <Rhino.DocObjects.ObjectAttributes>()
{
obje.Attributes
};
var stoneIndex = doc.InstanceDefinitions.Add("Stone" + instDefCount, "StoneMesh 1mm", Point3d.Origin, geometry, attributes);
List <InstanceReferenceGeometry> meshPave = new List <InstanceReferenceGeometry>();
foreach (Curve c in icur)
{
Circle circle1 = new Circle();
c.TryGetCircle(out circle1, tolerance);
double radius = circle1.Diameter;
Point3d center = circle1.Center;
Vector3d moveV = new Vector3d(center);
Vector3d zaxis = new Vector3d(0.0, 0.0, 1.0);
Plane planeOr = new Plane(center, zaxis);
Plane planeNew = circle1.Plane;
var transform1 = Transform.Translation(moveV);
var transform2 = Transform.Scale(center, radius);
var transform3 = Transform.PlaneToPlane(planeOr, planeNew);
var stoneA = doc.Objects.AddInstanceObject(stoneIndex, transform1);
var stoneB = doc.Objects.Transform(stoneA, transform2, true);
var stoneC = doc.Objects.Transform(stoneB, transform3, true);
ids.Add(stoneC);
}
doc.Groups.Add(ids);
doc.Objects.Delete(obje);
doc.Views.Redraw();
return(Result.Success);
}
