示例#1
0
        protected override Result RunCommand(RhinoDoc doc, RunMode mode)
        {
            GetObject go = new GetObject();

            go.SetCommandPrompt("Select surfaces, polysurfaces, or meshes");
            go.GroupSelect     = true;
            go.SubObjectSelect = false;
            go.EnableClearObjectsOnEntry(false);
            go.EnableUnselectObjectsOnExit(false);
            go.DeselectAllBeforePostSelect = false;
            bool bHavePreselectedObjects = false;

            for (; ;)
            {
                GetResult res = go.GetMultiple(1, 0);

                if (res == GetResult.Option)
                {
                    go.EnablePreSelect(false, true);
                    continue;
                }

                else if (res != GetResult.Object)
                {
                    return(Result.Cancel);
                }

                if (go.ObjectsWerePreselected)
                {
                    bHavePreselectedObjects = true;
                    go.EnablePreSelect(false, true);
                    continue;
                }

                break;
            }


            BoundingBox box = BoundingBox.Empty;

            for (int i = 0; i < go.ObjectCount; i++)
            {
                RhinoObject rhinoObject = go.Object(i).Object();
                if (null != rhinoObject)
                {
                    box.Union(rhinoObject.Geometry.GetBoundingBox(true));
                }
                rhinoObject.Select(false);
            }

            if (box.IsValid)
            {
                RFContext.ClippingBox = new Box(box);
                //RFContext.Clip = true;

                return(Result.Success);
            }

            return(Result.Nothing);
        }
示例#2
0
        public static GetObject GetRhinoObjects(string prompt, ObjectType geometryFilter)
        {
            GetObject go = new GetObject();

            go.SetCommandPrompt(prompt);
            go.GeometryFilter  = geometryFilter;
            go.GroupSelect     = false;
            go.SubObjectSelect = false;
            go.EnableClearObjectsOnEntry(false);
            go.EnableUnselectObjectsOnExit(false);
            go.DeselectAllBeforePostSelect = false;

            bool bHavePreselectedObjects = true;

            for (; ;)
            {
                GetResult res = go.GetMultiple(1, 0);

                if (res == GetResult.Option)
                {
                    go.EnablePreSelect(false, true);
                    continue;
                }

                else if (res != GetResult.Object)
                {
                    return(go);
                }

                if (go.ObjectsWerePreselected)
                {
                    bHavePreselectedObjects = true;
                    go.EnablePreSelect(false, true);
                    continue;
                }

                break;
            }

            if (bHavePreselectedObjects)
            {
                // Normally, pre-selected objects will remain selected, when a
                // command finishes, and post-selected objects will be unselected.
                // This this way of picking, it is possible to have a combination
                // of pre-selected and post-selected. So, to make sure everything
                // "looks the same", lets unselect everything before finishing
                // the command.
                for (int i = 0; i < go.ObjectCount; i++)
                {
                    RhinoObject rhinoObject = go.Object(i).Object();
                    if (null != rhinoObject)
                    {
                        rhinoObject.Select(false);
                    }
                }
            }

            return(go);
        }
示例#3
0
 // This just makes sure objects selected during the command stay selected afterwards. Optional.
 private static void SelectAllCommandObjs(GetObject command, RhinoDoc doc)
 {
     for (int i = 0; i < command.ObjectCount; i++)
     {
         RhinoObject rhinoObject = command.Object(i).Object();
         if (null != rhinoObject)
         {
             rhinoObject.Select(true);
         }
     }
     doc.Views.Redraw();
 }
示例#4
0
        public static GeometryLarge CreateGeometry(MaterialType mType, string mName)

        {
            RhinoDoc doc = RhinoDoc.ActiveDoc;

            //Allow user to pick multiple objects
            const Rhino.DocObjects.ObjectType geometryFilter = Rhino.DocObjects.ObjectType.Curve;

            Rhino.Input.Custom.GetObject go = new Rhino.Input.Custom.GetObject()
            {
                GeometryFilter              = geometryFilter,
                GroupSelect                 = true,
                SubObjectSelect             = false,
                DeselectAllBeforePostSelect = false
            };
            go.SetCommandPrompt("Pick one or two closed curves.");
            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();
            }

            ObjRef[]     objs           = go.Objects();
            List <Curve> selectedCurves = new List <Curve>();

            foreach (ObjRef objRef in objs)
            {
                if (objRef.Curve() == null)
                {
                    RhinoApp.WriteLine("One of the selected objects was invalid.");
                    continue;
                }
                else if (!objRef.Curve().IsClosed)
                {
                    RhinoApp.WriteLine("One of the selected curves was not closed.");
                    continue;
                }
                selectedCurves.Add(objRef.Curve());
            }

            GeometryLarge larg;

            //if the curve is not closed do nothing
            switch (selectedCurves.Count)
            {
            case 0:
                Rhino.RhinoApp.WriteLine("No valid geometries was found.");
                return(null);

            case 1:
                larg = DrawAndSaveUserAttr(Brep.CreatePlanarBreps(selectedCurves)[0], doc, mType, mName);
                break;

            case 2:
                Brep brep1 = Brep.CreatePlanarBreps(new[] { selectedCurves[0] })[0];
                Brep brep2 = Brep.CreatePlanarBreps(new[] { selectedCurves[1] })[0];

                double area      = Brep.CreateBooleanUnion(new[] { brep1, brep2 }, 0.001)[0].GetArea();
                double brep1Area = brep1.GetArea();
                double brep2Area = brep2.GetArea();
                if (area > 0.999 * brep1Area && area < 1.001 * brep1Area)
                {
                    Brep brep = Brep.CreateBooleanDifference(brep1, brep2, doc.ModelAbsoluteTolerance)[0];
                    larg = DrawAndSaveUserAttr(brep, doc, mType, mName);
                    break;
                }

                else if (area > 0.999 * brep2Area && area < 1.001 * brep2Area)
                {
                    Brep brep = Brep.CreateBooleanDifference(brep1, brep2, doc.ModelAbsoluteTolerance)[0];
                    larg = DrawAndSaveUserAttr(brep, doc, mType, mName);
                    break;
                }
                else
                {
                    RhinoApp.WriteLine("The curves were not inside one another.");
                    return(null);
                }

            default:
                return(null);
            }

            foreach (ObjRef objRef in objs)
            {
                doc.Objects.Delete(objRef, false);
            }
            return(larg);
        }
示例#5
0
        protected override Result RunCommand(RhinoDoc doc, RunMode mode)
        {
            const ObjectType geometryFilter = ObjectType.Surface | ObjectType.PolysrfFilter | ObjectType.Mesh;

            GetObject go = new GetObject();

            go.SetCommandPrompt("Select surfaces, polysurfaces, or meshes");
            go.GeometryFilter  = geometryFilter;
            go.GroupSelect     = true;
            go.SubObjectSelect = false;
            go.EnableClearObjectsOnEntry(false);
            go.EnableUnselectObjectsOnExit(false);
            go.DeselectAllBeforePostSelect = false;

            bool bHavePreselectedObjects = false;

            for (; ;)  // infinite loop
            {
                GetResult res = go.GetMultiple(1, 0);

                if (res == GetResult.Option)
                {
                    go.EnablePreSelect(false, true);
                    continue;
                }

                else if (res != GetResult.Object)
                {
                    return(Result.Cancel);
                }

                if (go.ObjectsWerePreselected)
                {
                    bHavePreselectedObjects = true;
                    go.EnablePreSelect(false, true);
                    continue;
                }

                break;
            }


            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 objectCount = go.ObjectCount;

            List <String> objectTypeList = new List <string>();
            List <String> objectNameList = new List <string>();

            for (int i = 0; i < go.ObjectCount; i++)
            {
                RhinoObject rhinoObject = go.Object(i).Object();
                string      objectName  = rhinoObject.Name;
                if (null != rhinoObject)
                {
                    objectTypeList.Add(rhinoObject.ObjectType.ToString());
                    objectNameList.Add(objectName);
                }
            }


            RhinoApp.WriteLine(string.Format("Select object count = {0}", objectCount));
            for (int i = 0; i < objectTypeList.Count; i++)
            {
                RhinoApp.WriteLine(string.Format("Select object Name : {0}, Type : {1}", objectNameList[i], objectTypeList[i]));
            }



            return(Result.Success);
        }
示例#6
0
        protected override Result RunCommand(RhinoDoc doc, RunMode mode)
        {
            Mesh   m1, m2;
            ObjRef objref1, objref2;
            Result res = Result.Nothing;

            res = RhinoGet.GetOneObject("Select first mesh", false, ObjectType.Mesh, out objref1);
            if (res != Result.Success)
            {
                return(res);
            }

            m1 = objref1.Mesh();
            if (m1 == null)
            {
                return(Result.Failure);
            }

            RhinoApp.WriteLine("Got Mesh1 with {0} verts and {1} faces.", m1.Vertices.Count, m1.Faces.Count);

            // De-select first mesh...

            RhinoObject rhinoObject = objref1.Object();

            if (null != rhinoObject)
            {
                rhinoObject.Select(false);
            }



            res = RhinoGet.GetOneObject("Select second mesh", false, ObjectType.Mesh, out objref2);

            if (res != Result.Success)
            {
                return(res);
            }

            m2 = objref2.Mesh();
            if (m2 == null)
            {
                return(Result.Failure);
            }

            RhinoApp.WriteLine("Got Mesh2 with {0} verts and {1} faces.", m2.Vertices.Count, m2.Faces.Count);


            int option = 0;

            res = RhinoGet.GetInteger("Union (0), Intersection (1), AMinusB (2), BMinusA (3), SymmetricalDifferent (4), All (5)", false, ref option);
            RhinoApp.WriteLine("Operation {0} selected.", ((CarveRC.Operations)(option)).ToString());

            if (option < 0 || option > 5)
            {
                RhinoApp.WriteLine("Invalid input value for Carve operation.");
                return(Result.Failure);
            }

            Mesh result = CarveRC.CarveOps.PerformCSG(m1, m2, (CarveRC.Operations)option);

            RhinoApp.WriteLine("Performed Carve operation. New mesh has {0} verts and {1} faces.", result.Vertices.Count, result.Faces.Count);

            doc.Objects.AddMesh(result);
            doc.Views.Redraw();

            return(Result.Success);
        }
示例#7
0
        //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)
        {
            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(ProjectPlugIn.Instance.CurrentBeam)
                {
                    Material = new SteelMaterial("B500B", SteelType.Reinforcement, ProjectPlugIn.Instance.CurrentBeam),
                    Centroid = 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);
        }
示例#9
0
        protected override Result RunCommand(RhinoDoc doc, RunMode mode)
        {
            bool bHavePreselectedObjects = false;

            const ObjectType geometryFilter = ObjectType.MeshFace;

            OptionDouble  minEdgeLengthOption     = new OptionDouble(minEdgeLength, 0.001, 200);
            OptionDouble  maxEdgeLengthOption     = new OptionDouble(maxEdgeLength, 0.001, 200);
            OptionDouble  constriantAngleOption   = new OptionDouble(constriantAngle, 0.001, 360);
            OptionInteger smoothStepsOptions      = new OptionInteger(smoothSteps, 0, 100);
            OptionDouble  smoothSpeedOption       = new OptionDouble(smoothSpeed, 0.01, 1.0);
            OptionDouble  projectAmountOption     = new OptionDouble(projectedAmount, 0.01, 1.0);
            OptionDouble  projectedDistanceOption = new OptionDouble(projectedDistance, 0.01, 100000.0);

            GetObject go = new GetObject();

            go.SetCommandPrompt("Select mesh faces to project onto another mesh");
            go.GeometryFilter = geometryFilter;

            go.AddOptionDouble("ConstraintAngle", ref constriantAngleOption);
            go.AddOptionDouble("MinEdge", ref minEdgeLengthOption);
            go.AddOptionDouble("MaxEdge", ref maxEdgeLengthOption);
            go.AddOptionInteger("SmoothSteps", ref smoothStepsOptions);
            go.AddOptionDouble("SmoothSpeed", ref smoothSpeedOption);

            go.GroupSelect     = true;
            go.SubObjectSelect = true;

            for (; ;)
            {
                GetResult faceres = go.GetMultiple(1, 0);

                if (faceres == GetResult.Option)
                {
                    go.EnablePreSelect(false, true);
                    continue;
                }

                else if (go.CommandResult() != Result.Success)
                {
                    return(go.CommandResult());
                }

                if (go.ObjectsWerePreselected)
                {
                    bHavePreselectedObjects = true;
                    go.EnablePreSelect(false, true);
                    continue;
                }

                break;
            }

            minEdgeLength   = minEdgeLengthOption.CurrentValue;
            maxEdgeLength   = maxEdgeLengthOption.CurrentValue;
            constriantAngle = constriantAngleOption.CurrentValue;
            smoothSteps     = smoothStepsOptions.CurrentValue;
            smoothSpeed     = smoothSpeedOption.CurrentValue;

            //System.Collections.Generic.List<System.Guid> meshes = new System.Collections.Generic.List<System.Guid>();

            System.Guid rhinoMesh = System.Guid.Empty;

            System.Collections.Generic.List <int> removeFaces = new System.Collections.Generic.List <int>();

            g3.DMesh3 projectFaces = new g3.DMesh3(true, false, false, false);

            Rhino.Geometry.Mesh rhinoInputMesh = new Rhino.Geometry.Mesh();

            for (int i = 0; i < go.ObjectCount; i++)
            {
                ObjRef obj = go.Object(i);

                if (rhinoMesh == System.Guid.Empty)
                {
                    rhinoMesh      = obj.ObjectId;
                    rhinoInputMesh = obj.Mesh();

                    for (int j = 0; j < rhinoInputMesh.Vertices.Count; j++)
                    {
                        var vertex = new g3.NewVertexInfo();
                        vertex.n = new g3.Vector3f(rhinoInputMesh.Normals[j].X, rhinoInputMesh.Normals[j].Y, rhinoInputMesh.Normals[j].Z);
                        vertex.v = new g3.Vector3d(rhinoInputMesh.Vertices[j].X, rhinoInputMesh.Vertices[j].Y, rhinoInputMesh.Vertices[j].Z);
                        projectFaces.AppendVertex(vertex);
                    }
                }

                var m = rhinoInputMesh;

                if (rhinoMesh != obj.ObjectId)
                {
                    continue;
                }

                removeFaces.Add(obj.GeometryComponentIndex.Index);

                var mf = rhinoInputMesh.Faces[obj.GeometryComponentIndex.Index];


                if (mf.IsQuad)
                {
                    double dist1 = m.Vertices[mf.A].DistanceTo(m.Vertices[mf.C]);
                    double dist2 = m.Vertices[mf.B].DistanceTo(m.Vertices[mf.D]);
                    if (dist1 > dist2)
                    {
                        projectFaces.AppendTriangle(mf.A, mf.B, mf.D);
                        projectFaces.AppendTriangle(mf.B, mf.C, mf.D);
                    }
                    else
                    {
                        projectFaces.AppendTriangle(mf.A, mf.B, mf.C);
                        projectFaces.AppendTriangle(mf.A, mf.C, mf.D);
                    }
                }
                else
                {
                    projectFaces.AppendTriangle(mf.A, mf.B, mf.C);
                }
            }

            if (rhinoInputMesh == null)
            {
                return(Result.Failure);
            }

            removeFaces.Sort();
            removeFaces.Reverse();

            foreach (var removeFace in removeFaces)
            {
                rhinoInputMesh.Faces.RemoveAt(removeFace);
            }

            rhinoInputMesh.Compact();

            GetObject goProjected = new GetObject();

            goProjected.EnablePreSelect(false, true);
            goProjected.SetCommandPrompt("Select mesh to project to");
            goProjected.GeometryFilter = ObjectType.Mesh;
            goProjected.AddOptionDouble("ConstraintAngle", ref constriantAngleOption);
            goProjected.AddOptionDouble("MinEdge", ref minEdgeLengthOption);
            goProjected.AddOptionDouble("MaxEdge", ref maxEdgeLengthOption);
            goProjected.AddOptionInteger("SmoothSteps", ref smoothStepsOptions);
            goProjected.AddOptionDouble("SmoothSpeed", ref smoothSpeedOption);
            goProjected.AddOptionDouble("ProjectAmount", ref projectAmountOption);
            goProjected.AddOptionDouble("ProjectDistance", ref projectedDistanceOption);

            goProjected.GroupSelect     = true;
            goProjected.SubObjectSelect = false;
            goProjected.EnableClearObjectsOnEntry(false);
            goProjected.EnableUnselectObjectsOnExit(false);


            for (; ;)
            {
                GetResult resProject = goProjected.Get();

                if (resProject == GetResult.Option)
                {
                    continue;
                }
                else if (goProjected.CommandResult() != Result.Success)
                {
                    return(goProjected.CommandResult());
                }

                break;
            }


            minEdgeLength     = minEdgeLengthOption.CurrentValue;
            maxEdgeLength     = maxEdgeLengthOption.CurrentValue;
            constriantAngle   = constriantAngleOption.CurrentValue;
            smoothSteps       = smoothStepsOptions.CurrentValue;
            smoothSpeed       = smoothSpeedOption.CurrentValue;
            projectedAmount   = projectAmountOption.CurrentValue;
            projectedDistance = projectedDistanceOption.CurrentValue;

            if (bHavePreselectedObjects)
            {
                // Normally, pre-selected objects will remain selected, when a
                // command finishes, and post-selected objects will be unselected.
                // This this way of picking, it is possible to have a combination
                // of pre-selected and post-selected. So, to make sure everything
                // "looks the same", lets unselect everything before finishing
                // the command.
                for (int i = 0; i < go.ObjectCount; i++)
                {
                    RhinoObject rhinoObject = go.Object(i).Object();
                    if (null != rhinoObject)
                    {
                        rhinoObject.Select(false);
                    }
                }
                doc.Views.Redraw();
            }

            bool result = false;

            if (goProjected.ObjectCount < 1)
            {
                return(Result.Failure);
            }


            var rhinoMeshProject = goProjected.Object(0).Mesh();

            if (rhinoMeshProject == null || !rhinoMeshProject.IsValid)
            {
                return(Result.Failure);
            }

            var meshProjected = GopherUtil.ConvertToD3Mesh(rhinoMeshProject);

            var res = GopherUtil.RemeshMesh(projectFaces, (float)minEdgeLength, (float)maxEdgeLength, (float)constriantAngle, (float)smoothSpeed, smoothSteps, meshProjected, (float)projectedAmount, (float)projectedDistance);

            var newRhinoMesh = GopherUtil.ConvertToRhinoMesh(res);

            if (newRhinoMesh != null && newRhinoMesh.IsValid)
            {
                newRhinoMesh.Append(rhinoInputMesh);

                result |= doc.Objects.Replace(rhinoMesh, newRhinoMesh);
            }

            doc.Views.Redraw();

            return(Result.Success);
        }
        protected override Result RunCommand(RhinoDoc doc, RunMode mode)
        {
            const ObjectType geometryFilter = ObjectType.Mesh;

            OptionDouble  minEdgeLengthOption   = new OptionDouble(minEdgeLength, 0.001, 200);
            OptionDouble  maxEdgeLengthOption   = new OptionDouble(maxEdgeLength, 0.001, 200);
            OptionDouble  constriantAngleOption = new OptionDouble(constriantAngle, 0.001, 360);
            OptionInteger smoothStepsOptions    = new OptionInteger(smoothSteps, 0, 10000);
            OptionDouble  smoothSpeedOption     = new OptionDouble(smoothSpeed, 0.01, 1.0);

            GetObject go = new GetObject();

            go.SetCommandPrompt("Select meshes to remesh");
            go.GeometryFilter = geometryFilter;
            go.AddOptionDouble("ConstraintAngle", ref constriantAngleOption);
            go.AddOptionDouble("MinEdge", ref minEdgeLengthOption);
            go.AddOptionDouble("MaxEdge", ref maxEdgeLengthOption);
            go.AddOptionInteger("SmoothSteps", ref smoothStepsOptions);
            go.AddOptionDouble("SmoothSpeed", ref smoothSpeedOption);

            go.GroupSelect     = true;
            go.SubObjectSelect = false;
            go.EnableClearObjectsOnEntry(false);
            go.EnableUnselectObjectsOnExit(false);
            go.DeselectAllBeforePostSelect = false;

            bool bHavePreselectedObjects = false;

            for (;;)
            {
                GetResult res = go.GetMultiple(1, 0);

                if (res == GetResult.Option)
                {
                    go.EnablePreSelect(false, true);
                    continue;
                }

                else if (go.CommandResult() != Result.Success)
                {
                    return(go.CommandResult());
                }

                if (go.ObjectsWerePreselected)
                {
                    bHavePreselectedObjects = true;
                    go.EnablePreSelect(false, true);
                    continue;
                }

                break;
            }

            minEdgeLength   = minEdgeLengthOption.CurrentValue;
            maxEdgeLength   = maxEdgeLengthOption.CurrentValue;
            constriantAngle = constriantAngleOption.CurrentValue;
            smoothSteps     = smoothStepsOptions.CurrentValue;
            smoothSpeed     = smoothSpeedOption.CurrentValue;

            if (bHavePreselectedObjects)
            {
                // Normally, pre-selected objects will remain selected, when a
                // command finishes, and post-selected objects will be unselected.
                // This this way of picking, it is possible to have a combination
                // of pre-selected and post-selected. So, to make sure everything
                // "looks the same", lets unselect everything before finishing
                // the command.
                for (int i = 0; i < go.ObjectCount; i++)
                {
                    RhinoObject rhinoObject = go.Object(i).Object();
                    if (null != rhinoObject)
                    {
                        rhinoObject.Select(false);
                    }
                }
                doc.Views.Redraw();
            }

            bool result = false;

            foreach (var obj in go.Objects())
            {
                var rhinoMesh = obj.Mesh();

                if (rhinoMesh == null || !rhinoMesh.IsValid)
                {
                    continue;
                }

                var mesh = GopherUtil.ConvertToD3Mesh(obj.Mesh());

                var res = GopherUtil.RemeshMesh(mesh, (float)minEdgeLength, (float)maxEdgeLength, (float)constriantAngle, (float)smoothSpeed, smoothSteps);

                var newRhinoMesh = GopherUtil.ConvertToRhinoMesh(mesh);

                if (newRhinoMesh != null && newRhinoMesh.IsValid)
                {
                    doc.Objects.Replace(obj, newRhinoMesh);
                }

                if (newRhinoMesh != null && newRhinoMesh.IsValid)
                {
                    result |= doc.Objects.Replace(obj, newRhinoMesh);
                }
            }

            doc.Views.Redraw();

            return(Result.Success);
        }
示例#11
0
        protected override Result RunCommand(RhinoDoc doc, RunMode mode)
        {
            GetObject go = new GetObject();

            go.SetCommandPrompt("Select surfaces, polysurfaces, or meshes");
            go.GeometryFilter  = ObjectType.Surface | ObjectType.PolysrfFilter | ObjectType.Mesh;
            go.GroupSelect     = true;
            go.SubObjectSelect = false;
            go.GetMultiple(1, 0);
            if (go.CommandResult() != Result.Success)
            {
                return(go.CommandResult());
            }

            List <Mesh>        InMeshes      = new List <Mesh>(go.ObjectCount);
            List <RhinoObject> InMeshObjects = new List <RhinoObject>(go.ObjectCount);
            List <RhinoObject> InObjects     = new List <RhinoObject>(go.ObjectCount);

            for (int i = 0; i < go.ObjectCount; i++)
            {
                ObjRef objRef = go.Object(i);
                Mesh   mesh   = objRef.Mesh();
                if (null == mesh)
                {
                    InObjects.Add(objRef.Object());
                }
                else
                {
                    InMeshes.Add(mesh);
                    InMeshObjects.Add(objRef.Object());
                }
            }

            ObjRef[] meshRefs = null;
            if (InObjects.Count > 0)
            {
                meshRefs = RhinoObject.GetRenderMeshes(InObjects, true, false);
                if (null != meshRefs)
                {
                    for (int i = 0; i < meshRefs.Length; i++)
                    {
                        Mesh mesh = meshRefs[i].Mesh();
                        if (null != mesh)
                        {
                            InMeshes.Add(mesh);
                        }
                    }
                }
            }

            RhinoViewport vp = doc.Views.ActiveView.ActiveViewport;

            for (int i = 0; i < InMeshes.Count; i++)
            {
                Polyline[] plines = InMeshes[i].GetOutlines(vp);
                if (null != plines)
                {
                    for (int j = 0; j < plines.Length; j++)
                    {
                        Rhino.Geometry.PolylineCurve plineCrv = new PolylineCurve(plines[j]);
                        plineCrv.RemoveShortSegments(RhinoMath.SqrtEpsilon);
                        if (plineCrv.IsValid)
                        {
                            Guid        objId = doc.Objects.AddCurve(plineCrv);
                            RhinoObject obj   = doc.Objects.Find(objId);
                            if (null != obj)
                            {
                                obj.Select(true);
                            }
                        }
                    }
                }
            }

            for (int i = 0; i < InObjects.Count; i++)
            {
                InObjects[i].Select(false);
            }
            for (int i = 0; i < InMeshObjects.Count; i++)
            {
                InMeshObjects[i].Select(false);
            }

            doc.Views.Redraw();

            return(Result.Success);
        }
示例#12
0
        protected override Result RunCommand(RhinoDoc doc, RunMode mode)
        {
            MyRhino5rs11project8PlugIn p = MyRhino5rs11project8PlugIn.Instance;

            if (p.if_painted_object_set_ == false)
            {
                RhinoApp.WriteLine("No mesh");
                return(Result.Failure);
            }
            Mesh my_mesh = p.painted_object_;

            GetObject gbrep = new GetObject();

            gbrep.SetCommandPrompt("get the brep");
            gbrep.GeometryFilter  = Rhino.DocObjects.ObjectType.Brep;
            gbrep.SubObjectSelect = false;
            gbrep.Get();
            if (gbrep.CommandResult() != Rhino.Commands.Result.Success)
            {
                return(gbrep.CommandResult());
            }
            ObjRef      my_objref = gbrep.Object(0);
            RhinoObject my_obj    = my_objref.Object();

            if (my_obj == null)
            {
                return(Rhino.Commands.Result.Failure);
            }
            Brep brep = my_objref.Brep();

            if (brep == null)
            {
                return(Result.Failure);
            }
            my_obj.Select(false);

            int brep_number = 0;

            for (int i = 0; i < p.my_objects_list.Count; i++)
            {
                Brep an_object = p.my_objects_list[i];
                if (My_object_functions.GetComponentID(brep) == My_object_functions.GetComponentID(an_object))
                {
                    brep_number = i;
                    break;
                }
            }

            GetComponentPosition gp = new GetComponentPosition(brep, my_mesh);

            gp.SetCommandPrompt("Get the object position on mesh: ");
            gp.Constrain(my_mesh, false);
            gp.Get();
            if (gp.CommandResult() != Result.Success)
            {
                return(gp.CommandResult());
            }

            Point3d       n_p = gp.Point();
            List <Sphere> pin_ball_list;
            Brep          new_brep = GetComponentPosition.MoveBrep(brep, my_mesh, n_p, out pin_ball_list);

            /*
             * Point3d position = My_object_functions.GetPosition(new_brep);
             * Vector3d d_x = My_object_functions.GetX(new_brep);
             * Vector3d d_y = My_object_functions.GetY(new_brep);
             * Vector3d d_z = My_object_functions.GetZ(new_brep);
             * Line l_x = new Line(position, 10 * d_x);
             * Line l_y = new Line(position, 10 * d_y);
             * Line l_z = new Line(position, 10 * d_z);
             */

            ObjectAttributes path_attributes = new ObjectAttributes();

            path_attributes.ObjectColor      = Color.Yellow;
            path_attributes.ColorSource      = ObjectColorSource.ColorFromObject;
            path_attributes.PlotWeightSource = ObjectPlotWeightSource.PlotWeightFromObject;
            path_attributes.PlotWeight       = 2.0;

            ObjectAttributes my_attributes = new ObjectAttributes();

            my_attributes.ObjectColor = My_object_functions.GetColor(new_brep);
            my_attributes.ColorSource = ObjectColorSource.ColorFromObject;

            int new_pin_number = My_object_functions.GetPinQuantity(new_brep);
            List <NurbsCurve> new_path_list = new List <NurbsCurve>();

            for (int i = 0; i < new_pin_number; i++)
            {
                Guid      pin_id       = My_object_functions.GetPinGuid(new_brep, i);
                Point3d   pin_position = My_object_functions.GetPinPosition(new_brep, i);
                MeshPoint pin_on_mesh  = my_mesh.ClosestMeshPoint(pin_position, 0);
                new_path_list = p.graph.DijkstraPath_Change(pin_id, pin_on_mesh);
            }

            IEnumerable <RhinoObject> path_objref = doc.Objects.GetObjectList(ObjectType.Curve);

            foreach (RhinoObject path in path_objref)
            {
                doc.Objects.Delete(path, true);
            }

            for (int i = 0; i < new_path_list.Count; i++)
            {
                Guid path_id = new_path_list[i].UserDictionary.GetGuid("PathID");
                path_attributes.ObjectId = path_id;
                doc.Objects.AddCurve(new_path_list[i], path_attributes);
            }

            doc.Objects.Delete(my_objref, true);

            /*
             * IEnumerable<RhinoObject> rhino_objects = doc.Objects.GetObjectList(ObjectType.Brep);
             * foreach (RhinoObject r_o in rhino_objects) { doc.Objects.Delete(r_o, true); }
             *
             * IEnumerable<RhinoObject> lines = doc.Objects.GetObjectList(ObjectType.Curve);
             * foreach (RhinoObject r_o in lines) { doc.Objects.Delete(r_o, true); }
             */
            doc.Objects.AddBrep(new_brep, my_attributes);
            p.my_objects_list[brep_number] = new_brep;

            /*
             * foreach (Sphere s in pin_ball_list)
             * { doc.Objects.AddSphere(s); }
             * doc.Objects.AddLine(l_x, path_attributes);
             * doc.Objects.AddLine(l_y, path_attributes);
             * doc.Objects.AddLine(l_z, path_attributes);
             */
            doc.Views.Redraw();

            return(Result.Success);
        }
        protected override Result RunCommand(RhinoDoc doc, RunMode mode)
        {
            const ObjectType geometryFilter = ObjectType.Mesh;

            OptionDouble  minEdgeLengthOption     = new OptionDouble(minEdgeLength, 0.001, 200);
            OptionDouble  maxEdgeLengthOption     = new OptionDouble(maxEdgeLength, 0.001, 200);
            OptionDouble  constriantAngleOption   = new OptionDouble(constriantAngle, 0.001, 360);
            OptionInteger smoothStepsOptions      = new OptionInteger(smoothSteps, 0, 1000);
            OptionDouble  smoothSpeedOption       = new OptionDouble(smoothSpeed, 0.01, 1.0);
            OptionDouble  projectAmountOption     = new OptionDouble(projectedAmount, 0.01, 1.0);
            OptionDouble  projectedDistanceOption = new OptionDouble(projectedDistance, 0.01, 100000.0);

            GetObject go = new GetObject();

            go.SetCommandPrompt("Select mesh to remesh");
            go.GeometryFilter = geometryFilter;
            go.AddOptionDouble("ConstraintAngle", ref constriantAngleOption);
            go.AddOptionDouble("MinEdge", ref minEdgeLengthOption);
            go.AddOptionDouble("MaxEdge", ref maxEdgeLengthOption);
            go.AddOptionInteger("SmoothSteps", ref smoothStepsOptions);
            go.AddOptionDouble("SmoothSpeed", ref smoothSpeedOption);
            go.AddOptionDouble("ProjectAmount", ref projectAmountOption);
            go.AddOptionDouble("ProjectDistance", ref projectedDistanceOption);

            go.GroupSelect     = true;
            go.SubObjectSelect = false;
            go.EnableClearObjectsOnEntry(false);
            go.EnableUnselectObjectsOnExit(false);
            go.DeselectAllBeforePostSelect = false;

            bool bHavePreselectedObjects = false;

            for (;;)
            {
                GetResult res = go.Get();

                if (res == GetResult.Option)
                {
                    go.EnablePreSelect(false, true);
                    continue;
                }

                else if (go.CommandResult() != Result.Success)
                {
                    return(go.CommandResult());
                }

                if (go.ObjectsWerePreselected)
                {
                    bHavePreselectedObjects = true;
                    go.EnablePreSelect(false, true);
                    continue;
                }

                break;
            }

            GetObject goProjected = new GetObject();

            goProjected.EnablePreSelect(false, true);
            goProjected.SetCommandPrompt("Select mesh to project to");
            goProjected.GeometryFilter = geometryFilter;
            goProjected.AddOptionDouble("ConstraintAngle", ref constriantAngleOption);
            goProjected.AddOptionDouble("MinEdge", ref minEdgeLengthOption);
            goProjected.AddOptionDouble("MaxEdge", ref maxEdgeLengthOption);
            goProjected.AddOptionInteger("SmoothSteps", ref smoothStepsOptions);
            goProjected.AddOptionDouble("SmoothSpeed", ref smoothSpeedOption);
            goProjected.AddOptionDouble("ProjectAmount", ref projectAmountOption);
            goProjected.AddOptionDouble("ProjectDistance", ref projectedDistanceOption);

            goProjected.GroupSelect     = true;
            goProjected.SubObjectSelect = false;
            goProjected.EnableClearObjectsOnEntry(false);
            goProjected.EnableUnselectObjectsOnExit(false);


            for (;;)
            {
                GetResult res = goProjected.Get();

                if (res == GetResult.Option)
                {
                    continue;
                }

                else if (goProjected.CommandResult() != Result.Success)
                {
                    return(goProjected.CommandResult());
                }

                break;
            }


            minEdgeLength     = minEdgeLengthOption.CurrentValue;
            maxEdgeLength     = maxEdgeLengthOption.CurrentValue;
            constriantAngle   = constriantAngleOption.CurrentValue;
            smoothSteps       = smoothStepsOptions.CurrentValue;
            smoothSpeed       = smoothSpeedOption.CurrentValue;
            projectedAmount   = projectAmountOption.CurrentValue;
            projectedDistance = projectedDistanceOption.CurrentValue;

            if (bHavePreselectedObjects)
            {
                // Normally, pre-selected objects will remain selected, when a
                // command finishes, and post-selected objects will be unselected.
                // This this way of picking, it is possible to have a combination
                // of pre-selected and post-selected. So, to make sure everything
                // "looks the same", lets unselect everything before finishing
                // the command.
                for (int i = 0; i < go.ObjectCount; i++)
                {
                    RhinoObject rhinoObject = go.Object(i).Object();
                    if (null != rhinoObject)
                    {
                        rhinoObject.Select(false);
                    }
                }
                doc.Views.Redraw();
            }

            bool result = false;

            if (goProjected.ObjectCount < 1)
            {
                return(Result.Failure);
            }

            foreach (var obj in go.Objects())
            {
                var rhinoMesh = obj.Mesh();

                if (rhinoMesh == null || !rhinoMesh.IsValid)
                {
                    continue;
                }

                var mesh = GopherUtil.ConvertToD3Mesh(obj.Mesh());


                var rhinoMeshProject = goProjected.Object(0).Mesh();

                if (rhinoMeshProject == null || !rhinoMeshProject.IsValid)
                {
                    continue;
                }

                var meshProjected = GopherUtil.ConvertToD3Mesh(rhinoMeshProject);

                var mesh2 = new DMesh3(mesh);
                var mesh3 = new DMesh3(mesh);

                var res3 = GopherUtil.RemeshMesh(mesh3, (float)minEdgeLength, (float)maxEdgeLength, (float)constriantAngle, (float)smoothSpeed, smoothSteps, meshProjected, (float)projectedAmount, (float)projectedDistance);

                var watch = System.Diagnostics.Stopwatch.StartNew();
                // the code that you want to measure comes here

                var res = GopherUtil.RemeshMesh(mesh, (float)minEdgeLength, (float)maxEdgeLength, (float)constriantAngle, (float)smoothSpeed, smoothSteps, meshProjected, (float)projectedAmount, (float)projectedDistance);

                watch.Stop();

                var watch2 = System.Diagnostics.Stopwatch.StartNew();

                var res2 = GopherUtil.RemeshMeshNew(mesh2, (float)minEdgeLength, (float)maxEdgeLength, (float)constriantAngle, (float)smoothSpeed, smoothSteps, meshProjected, (float)projectedAmount, (float)projectedDistance);

                watch2.Stop();


                Rhino.RhinoApp.WriteLine("Time 1: {0} Time 2: {1}", watch.ElapsedMilliseconds, watch2.ElapsedMilliseconds);

                var newRhinoMesh = GopherUtil.ConvertToRhinoMesh(res);

                var newRhinoMesh2 = GopherUtil.ConvertToRhinoMesh(mesh2);

                newRhinoMesh2.Translate(new Rhino.Geometry.Vector3d(newRhinoMesh2.GetBoundingBox(true).Diagonal.X, 0, 0));

                doc.Objects.Add(newRhinoMesh2);

                if (newRhinoMesh != null && newRhinoMesh.IsValid)
                {
                    doc.Objects.Replace(obj, newRhinoMesh);
                }

                if (newRhinoMesh != null && newRhinoMesh.IsValid)
                {
                    result |= doc.Objects.Replace(obj, newRhinoMesh);
                }
            }

            doc.Views.Redraw();

            return(Result.Success);
        }
示例#14
0
        protected override Result RunCommand(RhinoDoc doc, RunMode mode)
        {
            const ObjectType geometryFilter = ObjectType.Mesh;
            
            OptionDouble minEdgeLengthOption = new OptionDouble(minEdgeLength, 0.001, 200);
            OptionInteger maxTriangleCountOption = new OptionInteger(maxTriangleCount, 0, 100000000);
            
            GetObject go = new GetObject();
            go.SetCommandPrompt("Select meshes to reduce");
            go.GeometryFilter = geometryFilter;
            go.AddOptionDouble("MinEdge", ref minEdgeLengthOption);
            go.AddOptionInteger("MaxTriangle", ref maxTriangleCountOption);

            go.GroupSelect = true;
            go.SubObjectSelect = false;
            go.EnableClearObjectsOnEntry(false);
            go.EnableUnselectObjectsOnExit(false);
            go.DeselectAllBeforePostSelect = false;

            bool bHavePreselectedObjects = false;

            for (;;)
            {
                GetResult res = go.GetMultiple(1, 0);

                if (res == GetResult.Option)
                {
                    go.EnablePreSelect(false, true);
                    continue;
                }

                else if (go.CommandResult() != Result.Success)
                    return go.CommandResult();

                if (go.ObjectsWerePreselected)
                {
                    bHavePreselectedObjects = true;
                    go.EnablePreSelect(false, true);
                    continue;
                }

                break;
            }

            maxTriangleCount = maxTriangleCountOption.CurrentValue;
            minEdgeLength = minEdgeLengthOption.CurrentValue;

            if (bHavePreselectedObjects)
            {
                // Normally, pre-selected objects will remain selected, when a
                // command finishes, and post-selected objects will be unselected.
                // This this way of picking, it is possible to have a combination
                // of pre-selected and post-selected. So, to make sure everything
                // "looks the same", lets unselect everything before finishing
                // the command.
                for (int i = 0; i < go.ObjectCount; i++)
                {
                    RhinoObject rhinoObject = go.Object(i).Object();
                    if (null != rhinoObject)
                        rhinoObject.Select(false);
                }
                doc.Views.Redraw();
            }

            bool result = false;

            foreach (var obj in go.Objects())
            {
                var rhinoMesh = obj.Mesh();

                if (rhinoMesh == null || !rhinoMesh.IsValid)
                    continue;

                var mesh = GopherUtil.ConvertToD3Mesh(obj.Mesh());
                
                GopherUtil.ReduceMesh(mesh, (float)minEdgeLength, maxTriangleCount);

                double mine, maxe, avge;
                MeshQueries.EdgeLengthStats(mesh, out mine, out maxe, out avge);
                   RhinoApp.WriteLine("Edge length stats: {0} {1} {2}", mine, maxe, avge);

                var newRhinoMesh = GopherUtil.ConvertToRhinoMesh(mesh);

                if (newRhinoMesh != null && newRhinoMesh.IsValid)
                {
                    doc.Objects.Replace(obj, newRhinoMesh);
                }

                if (newRhinoMesh != null && newRhinoMesh.IsValid)
                {
                    result |= doc.Objects.Replace(obj, newRhinoMesh);
                }
            }

            doc.Views.Redraw();

            return Result.Success;
        }
        protected override Result RunCommand(Rhino.RhinoDoc doc, RunMode mode)
        {
            GetObject go = new GetObject();

            // List of Object Types to filter
            List <ObjectType> enumList = new List <ObjectType> {
                ObjectType.Point,
                ObjectType.Curve,
                ObjectType.Extrusion,
                ObjectType.Surface,
                ObjectType.Brep,
                ObjectType.Mesh,
                ObjectType.InstanceReference,
                ObjectType.Light,
                ObjectType.ClipPlane,
                ObjectType.Hatch,
                ObjectType.Annotation,
                ObjectType.ClipPlane,
            };

            string[]            enumNames  = Enum.GetNames(typeof(ObjectType));
            var                 enumValues = Enum.GetValues(typeof(ObjectType)).OfType <ObjectType>().ToList();
            List <OptionToggle> options    = new List <OptionToggle>();
            List <ObjectType>   types      = new List <ObjectType>();

            for (int i = 0; i < enumList.Count; i++)
            {
                var value = (ObjectType)enumList[i];
                var index = enumValues.IndexOf(value);

                if (index > -1)
                {
                    var toggle = new OptionToggle(false, "Off", "On");
                    options.Add(toggle);
                    types.Add(value);
                    go.AddOptionToggle(enumNames[index], ref toggle);
                }
            }

            go.SetCommandPrompt("Select filter geometry types");

            go.GroupSelect     = true;
            go.SubObjectSelect = false;
            go.EnableClearObjectsOnEntry(false);
            go.EnableUnselectObjectsOnExit(false);
            go.DeselectAllBeforePostSelect = false;

            var selectedObjectTypes = new List <ObjectType>();

            while (true)
            {
                GetResult res = go.GetMultiple(1, 0);


                // If the action is change in filter, update the filter list.
                if (res == GetResult.Option)
                {
                    selectedObjectTypes.Clear();
                    go.EnablePreSelect(false, true);
                    ObjectType objectTypes = 0;
                    for (var i = 0; i < options.Count; i++)
                    {
                        var type = types[i];
                        if (options[i].CurrentValue)
                        {
                            selectedObjectTypes.Add(type);
                            if (objectTypes == ObjectType.None)
                            {
                                objectTypes = type;
                            }
                            else
                            {
                                objectTypes |= type;
                            }
                        }
                    }
                    go.GeometryFilter = objectTypes;

                    continue;
                }

                else if (res != GetResult.Object)
                {
                    return(Result.Cancel);
                }

                if (go.ObjectsWerePreselected)
                {
                    go.EnablePreSelect(false, true);
                    continue;
                }

                break;
            }

            // Select objects that meets the filter criteria
            for (int i = 0; i < go.ObjectCount; i++)
            {
                RhinoObject rhinoObject = go.Object(i).Object();
                if (null != rhinoObject)
                {
                    if (selectedObjectTypes.Contains(rhinoObject.ObjectType))
                    {
                        rhinoObject.Select(true);
                    }
                    else
                    {
                        rhinoObject.Select(false);
                    }
                }
            }
            doc.Views.Redraw();
            return(Result.Success);
        }
        protected override Result RunCommand(RhinoDoc doc, RunMode mode)
        {
            // TODO: complete command.
            MyRhino5rs11project8PlugIn p = MyRhino5rs11project8PlugIn.Instance;

            if (p.if_painted_object_set_ == false)
            {
                RhinoApp.WriteLine("No mesh");
                return(Result.Failure);
            }
            Mesh my_mesh = p.painted_object_;

            GetObject gbrep = new GetObject();

            gbrep.SetCommandPrompt("get the brep");
            gbrep.GeometryFilter  = Rhino.DocObjects.ObjectType.Brep;
            gbrep.SubObjectSelect = false;
            gbrep.Get();
            if (gbrep.CommandResult() != Rhino.Commands.Result.Success)
            {
                return(gbrep.CommandResult());
            }
            ObjRef      my_objref = gbrep.Object(0);
            RhinoObject my_obj    = my_objref.Object();

            if (my_obj == null)
            {
                return(Rhino.Commands.Result.Failure);
            }
            Brep brep = my_objref.Brep();

            if (brep == null)
            {
                return(Result.Failure);
            }
            my_obj.Select(false);

            int brep_number = 0;

            for (int i = 0; i < p.my_objects_list.Count; i++)
            {
                Brep an_object = p.my_objects_list[i];
                if (My_object_functions.GetComponentID(brep) == My_object_functions.GetComponentID(an_object))
                {
                    brep_number = i;
                    break;
                }
            }

            Point3d  position         = My_object_functions.GetPosition(brep);
            Vector3d normal_direction = My_object_functions.GetZ(brep);
            Plane    plane            = new Plane(position, normal_direction);

            /*
             * GetPoint gp = new GetPoint();
             * gp.Constrain(plane, false);
             * gp.Get();
             * if (gp.CommandResult() != Result.Success)
             *  return gp.CommandResult();
             * var start_point = gp.Point();
             * if (start_point == Point3d.Unset)
             *  return Result.Failure;
             */

            Vector3d horizontal_direction = My_object_functions.GetY(brep);
            Point3d  start_point          = position + 10 * horizontal_direction;

            GetRotationAngle gr = new GetRotationAngle(brep, my_mesh, start_point);

            gr.SetCommandPrompt("Get the rotation angle");
            gr.Constrain(plane, false);
            gr.Get();
            if (gr.CommandResult() != Result.Success)
            {
                return(gr.CommandResult());
            }

            Point3d end_point = gr.Point();
            Brep    new_brep  = GetRotationAngle.RotateBrep(brep, my_mesh, end_point, start_point);

            ObjectAttributes path_attributes = new ObjectAttributes();

            path_attributes.ObjectColor      = Color.Yellow;
            path_attributes.ColorSource      = ObjectColorSource.ColorFromObject;
            path_attributes.PlotWeightSource = ObjectPlotWeightSource.PlotWeightFromObject;
            path_attributes.PlotWeight       = 2.0;

            ObjectAttributes my_attributes = new ObjectAttributes();

            my_attributes.ObjectColor = My_object_functions.GetColor(new_brep);
            my_attributes.ColorSource = ObjectColorSource.ColorFromObject;

            int new_pin_number = My_object_functions.GetPinQuantity(new_brep);
            List <NurbsCurve> new_path_list = new List <NurbsCurve>();

            for (int i = 0; i < new_pin_number; i++)
            {
                Guid      pin_id       = My_object_functions.GetPinGuid(new_brep, i);
                Point3d   pin_position = My_object_functions.GetPinPosition(new_brep, i);
                MeshPoint pin_on_mesh  = my_mesh.ClosestMeshPoint(pin_position, 0);
                new_path_list = p.graph.DijkstraPath_Change(pin_id, pin_on_mesh);
            }

            IEnumerable <RhinoObject> path_objref = doc.Objects.GetObjectList(ObjectType.Curve);

            foreach (RhinoObject path in path_objref)
            {
                doc.Objects.Delete(path, true);
            }

            for (int i = 0; i < new_path_list.Count; i++)
            {
                Guid path_id = new_path_list[i].UserDictionary.GetGuid("PathID");
                path_attributes.ObjectId = path_id;
                doc.Objects.AddCurve(new_path_list[i], path_attributes);
            }

            doc.Objects.Delete(my_objref, true);
            doc.Objects.AddBrep(new_brep, my_attributes);
            p.my_objects_list[brep_number] = new_brep;
            doc.Views.Redraw();


            return(Result.Success);
        }
        /// <summary>
        /// Creates the layout.
        /// </summary>
        /// <param name="doc">The document.</param>
        /// <param name="panel">The panel.</param>
        /// <param name="panelParas">The panel paras.</param>
        /// <returns></returns>
        public Result createLayout(RhinoDoc doc, FoldedPerforationPanel panel, PanelParameters panelParas)
        {
            if (panelParas == null)
            {
                panelParas = new PanelParameters();
            }

            if (panel == null)
            {
                panel = new FoldedPerforationPanel();
            }

            // Get all selected Objects
            GetObject go = new GetObject();

            go.GroupSelect     = true;
            go.SubObjectSelect = false;
            go.EnableClearObjectsOnEntry(false);
            go.EnableUnselectObjectsOnExit(false);
            go.DeselectAllBeforePostSelect = false;
            go.EnableSelPrevious(true);
            go.EnablePreSelect(true, false);
            go.EnablePressEnterWhenDonePrompt(false);

            go.SetCommandPrompt("Select items for the new layout:");

            // Disable the scaling
            RhinoApp.RunScript("_-DocumentProperties AnnotationStyles ModelSpaceScaling=Disabled LayoutSpaceScaling=Disabled _Enter _Enter", true);

            GetResult result = go.GetMultiple(1, -1);

            if (go.CommandResult() != Rhino.Commands.Result.Success)
            {
                return(go.CommandResult());
            }

            RhinoApp.WriteLine("Total Objects Selected: {0}", go.ObjectCount);

            string  labelName = panel.PartName;
            string  area      = string.Format("{0:0.00}", panel.Area);
            Point2d minPoint  = new Point2d(0, 0);
            Point2d maxPoint  = new Point2d(0, 0);

            // Loop through all the objects to find Text
            for (int i = 0; i < go.ObjectCount; i++)
            {
                BoundingBox bBox = go.Object(i).Object().Geometry.GetBoundingBox(true);

                if (bBox.Min.X < minPoint.X)
                {
                    minPoint.X = bBox.Min.X;
                }

                if (bBox.Min.Y < minPoint.Y)
                {
                    minPoint.Y = bBox.Min.Y;
                }

                if (bBox.Max.X > maxPoint.X)
                {
                    maxPoint.X = bBox.Max.X;
                }

                if (bBox.Max.Y > maxPoint.Y)
                {
                    maxPoint.Y = bBox.Max.Y;
                }
            }

            // If the selected items has no label, return failure
            if (labelName == null)
            {
                return(Rhino.Commands.Result.Failure);
            }

            // Hide all the non selected objects
            foreach (var obj in doc.Objects)
            {
                if (obj.IsSelected(true) == 0)
                {
                    doc.Objects.Hide(obj, false);
                }
            }

            // Add layout
            doc.PageUnitSystem = Rhino.UnitSystem.Millimeters;


            RhinoView currentView = doc.Views.ActiveView;
            var       pageview    = doc.Views.AddPageView(string.Format("{0}", labelName), 210, 297);
            Point2d   bottomLeft  = new Point2d(10, 70);
            Point2d   topRight    = new Point2d(200, 287);

            if (pageview != null)
            {
                pageview.SetPageAsActive();

                var detail = pageview.AddDetailView("Panel", bottomLeft, topRight, Rhino.Display.DefinedViewportProjection.Top);

                // Show all objects
                RhinoApp.RunScript("_-Show _Enter", true);

                if (detail != null)
                {
                    pageview.SetActiveDetail(detail.Id);

                    doc.Views.ActiveView = pageview;

                    //doc.Views.Redraw();
                    // Select all the objects
                    for (int i = 0; i < go.ObjectCount; i++)
                    {
                        RhinoObject rhinoObject = go.Object(i).Object();

                        rhinoObject.Select(true);
                    }

                    // Hide all the non selected objects
                    var filter = new ObjectEnumeratorSettings
                    {
                        NormalObjects    = true,
                        LockedObjects    = false,
                        HiddenObjects    = false,
                        ActiveObjects    = true,
                        ReferenceObjects = true
                    };

                    var rh_objects = doc.Objects.FindByFilter(filter);

                    pageview.SetPageAsActive();

                    //doc.Views.Redraw();

                    foreach (var rh_obj in rh_objects)
                    {
                        var select = 0 == rh_obj.IsSelected(false) && rh_obj.IsSelectable();
                        rh_obj.Select(select);
                    }

                    RhinoApp.RunScript("_-HideInDetail Enter", true);

                    detail.IsActive = false;
                }

                bottomLeft = new Point2d(10, 40);
                topRight   = new Point2d(135, 70);

                detail = pageview.AddDetailView("Sample", bottomLeft, topRight, Rhino.Display.DefinedViewportProjection.Top);

                //  doc.Views.Redraw();
                pageview.SetActiveDetail(detail.Id);

                detail.Viewport.SetCameraLocation(new Point3d(50, 160, 0), true);
                detail.CommitViewportChanges();
                //  doc.Views.Redraw();

                detail.DetailGeometry.IsProjectionLocked = true;
                detail.DetailGeometry.SetScale(4.5, doc.ModelUnitSystem, 1, doc.PageUnitSystem);
                detail.CommitChanges();

                //  doc.Views.Redraw();


                detail.IsActive = true;
                pageview.SetActiveDetail(detail.Id);

                RhinoApp.WriteLine("Name = {0}: Width = {1}, Height = {2}",
                                   detail.Viewport.Name, detail.Viewport.Size.Width, detail.Viewport.Size.Height);
                detail.CommitViewportChanges();
                //  doc.Views.Redraw();

                detail.IsActive = false;

                bottomLeft = new Point2d(5, 5);
                topRight   = new Point2d(205, 35);
                detail     = pageview.AddDetailView("Block", bottomLeft, topRight, Rhino.Display.DefinedViewportProjection.Top);

                //  doc.Views.Redraw();

                detail.IsActive = true;
                pageview.SetActiveDetail(detail.Id);

                detail.Viewport.SetCameraLocation(new Point3d(105, 520, 0), true);
                detail.CommitViewportChanges();

                //  doc.Views.Redraw();

                detail.DetailGeometry.IsProjectionLocked = true;
                detail.DetailGeometry.SetScale(1, doc.ModelUnitSystem, 1, doc.PageUnitSystem);
                detail.CommitChanges();

                detail.IsActive = false;
                //  doc.Views.Redraw();

                drawBlock(doc, labelName, area, panel.PanelNumber, panelParas);

                //  doc.Views.Redraw();
            }

            // Show all objects
            RhinoApp.RunScript("_-Show _Enter", true);

            doc.Views.DefaultViewLayout();

            doc.Views.ActiveView = currentView;

            return(Result.Success);
        }
        protected override Result RunCommand(RhinoDoc doc, RunMode mode)
        {
            ActiveDoc = doc;

            const ObjectType geometryFilter = ObjectType.Curve | ObjectType.Surface;
            OptionToggle     toggle         = new OptionToggle(true, "Remove", "Apply");

            GetObject go = new GetObject();

            go.SetCommandPrompt("Select curves or surfaces");
            go.GeometryFilter = geometryFilter;
            go.AddOptionToggle("BuiltElements", ref toggle);
            go.GroupSelect     = true;
            go.SubObjectSelect = false;
            go.EnableClearObjectsOnEntry(false);
            go.EnableUnselectObjectsOnExit(false);
            go.DeselectAllBeforePostSelect = false;

            bool hasPreselected = false;

            for (; ;)
            {
                GetResult res = go.GetMultiple(1, 0);

                if (res == GetResult.Option)
                {
                    go.EnablePreSelect(false, true);
                    continue;
                }
                else if (res != GetResult.Object)
                {
                    return(Result.Cancel);
                }

                if (go.ObjectsWerePreselected)
                {
                    hasPreselected = true;
                    go.EnablePreSelect(false, true);
                    continue;
                }
                break;
            }

            if (hasPreselected)
            {
                // Normally, pre-selected objects will remain selected, when a
                // command finishes, and post-selected objects will be unselected.
                // Currently, leave everything selected post command.
                for (int i = 0; i < go.ObjectCount; i++)
                {
                    RhinoObject rhinoObject = go.Object(i).Object();
                    if (null != rhinoObject)
                    {
                        rhinoObject.Select(true);
                    }
                }
                doc.Views.Redraw();
            }

            List <RhinoObject> commandObjs = go.Objects().Select(o => o.Object()).ToList();

            if (toggle.CurrentValue == true)
            {
                ApplySchemas(commandObjs);
            }
            else
            {
                DeleteSchemas(commandObjs);
            }
            return(Result.Success);
        }