/// <summary>
        /// get plot 과 set boundary 분리함.
        /// 재활용
        /// </summary>
        /// <param name="sender"></param>
        /// <param name="e"></param>

        private void Btn_GetPlot_Click(object sender, RoutedEventArgs e)
        {
            Hide();

            ButtonStateCheck(ButtonState.None);

            var gcc = new GetObject();

            gcc.SetCommandPrompt("select closed curve");
            gcc.GeometryFilter          = Rhino.DocObjects.ObjectType.Curve;
            gcc.GeometryAttributeFilter = GeometryAttributeFilter.ClosedCurve;
            gcc.SubObjectSelect         = false;

            gcc.Get();

            if (gcc.CommandResult() != Result.Success)
            {
                Show();
                return;
            }

            if (null == gcc.Object(0).Curve())
            {
                Show();
                return;
            }


            Curve boundary = gcc.Object(0).Curve();

            SetCurve(boundary);
        }
Exemplo n.º 2
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        protected override Result RunCommand(RhinoDoc doc, RunMode mode)
        {
            var go = new GetObject();

            go.SetCommandPrompt("Select block to explode");
            go.GeometryFilter = ObjectType.InstanceReference;
            go.Get();
            if (go.CommandResult() != Result.Success)
            {
                return(go.CommandResult());
            }

            if (!(go.Object(0).Object() is InstanceObject iref))
            {
                return(Result.Failure);
            }

            var xform = Transform.Identity;
            var rc    = ExplodeBlockHelper(doc, iref, xform);

            if (rc)
            {
                doc.Objects.Delete(go.Object(0), false);
                doc.Views.Redraw();
            }

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

            go.SetCommandPrompt("Select two curves for planar curve containment test");
            go.GeometryFilter          = ObjectType.Curve;
            go.GeometryAttributeFilter = GeometryAttributeFilter.ClosedCurve;
            go.SubObjectSelect         = false;
            go.GetMultiple(2, 2);
            if (go.CommandResult() != Result.Success)
            {
                return(go.CommandResult());
            }

            Rhino.Geometry.Curve curveA = go.Object(0).Curve();
            Rhino.Geometry.Curve curveB = go.Object(1).Curve();
            if (null == curveA || null == curveB)
            {
                return(Result.Failure);
            }

            Plane planeA, planeB;

            if (!curveA.IsPlanar() || !curveA.TryGetPlane(out planeA))
            {
                RhinoApp.WriteLine("Curve A is not planar.");
                return(Result.Success);
            }

            if (!curveB.IsPlanar() || !curveB.TryGetPlane(out planeB))
            {
                RhinoApp.WriteLine("Curve B is not planar.");
                return(Result.Success);
            }

            double            tol = Rhino.RhinoMath.ZeroTolerance;
            RegionContainment rc  = Curve.PlanarClosedCurveRelationship(curveA, curveB, planeA, tol);

            switch (rc)
            {
            case RegionContainment.Disjoint:
                RhinoApp.WriteLine("There is no common area between the two regions.");
                break;

            case RegionContainment.MutualIntersection:
                RhinoApp.WriteLine("The two curves intersect. No full containment relationship exists.");
                break;

            case RegionContainment.AInsideB:
                RhinoApp.WriteLine("Region bounded by curveA (first curve) is inside of curveB (second curve).");
                break;

            case RegionContainment.BInsideA:
                RhinoApp.WriteLine("Region bounded by curveB (second curve) is inside of curveA (first curve).");
                break;
            }

            return(Result.Success);
        }
        protected override Result RunCommand(RhinoDoc doc, RunMode mode)
        {
            var go0 = new GetObject();

            go0.SetCommandPrompt("Select surface or polysurface to subtract from");
            go0.GeometryFilter  = ObjectType.Surface | ObjectType.PolysrfFilter;
            go0.SubObjectSelect = false;
            go0.Get();
            if (go0.CommandResult() != Result.Success)
            {
                return(go0.CommandResult());
            }

            var brep0 = go0.Object(0).Brep();

            if (null == brep0)
            {
                return(Result.Failure);
            }

            var go1 = new GetObject();

            go1.SetCommandPrompt("Select surface or polysurface to subtract with");
            go1.GeometryFilter  = ObjectType.Surface | ObjectType.PolysrfFilter;
            go1.SubObjectSelect = false;
            go1.EnablePreSelect(false, true);
            go1.DeselectAllBeforePostSelect = false;
            go1.Get();
            if (go1.CommandResult() != Result.Success)
            {
                return(go1.CommandResult());
            }

            var brep1 = go1.Object(0).Brep();

            if (null == brep1)
            {
                return(Result.Failure);
            }

            var tolerance = doc.ModelAbsoluteTolerance;
            var out_breps = Brep.CreateBooleanDifference(brep0, brep1, tolerance);

            if (null != out_breps && out_breps.Length > 0)
            {
                foreach (var b in out_breps)
                {
                    doc.Objects.AddBrep(b);
                }

                doc.Objects.Delete(go0.Object(0).ObjectId, true);
                doc.Objects.Delete(go1.Object(0).ObjectId, true);
            }

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

            go.SetCommandPrompt("Select two curves for intersection test");
            go.GeometryFilter = ObjectType.Curve;
            go.GetMultiple(2, 2);
            if (go.CommandResult() != Result.Success)
            {
                return(go.CommandResult());
            }

            var curve0 = go.Object(0).Curve();
            var curve1 = go.Object(1).Curve();

            if (null == curve0 || null == curve1)
            {
                return(Result.Failure);
            }

            var tolerance  = doc.ModelAbsoluteTolerance;
            var ccx_events = Intersection.CurveCurve(curve0, curve1, tolerance, tolerance);

            foreach (var ccx in ccx_events)
            {
                var rhobject_id = Guid.Empty;
                if (ccx.IsPoint)
                {
                    rhobject_id = doc.Objects.AddPoint(ccx.PointA);
                }
                else if (ccx.IsOverlap)
                {
                    var curve = curve0.Trim(ccx.OverlapA);
                    if (null != curve)
                    {
                        rhobject_id = doc.Objects.AddCurve(curve);
                    }
                }

                if (rhobject_id != Guid.Empty)
                {
                    var rhobject = doc.Objects.Find(rhobject_id);
                    if (null != rhobject)
                    {
                        rhobject.Select(true);
                    }
                }
            }

            doc.Views.Redraw();

            return(Result.Success);
        }
Exemplo n.º 6
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        protected override Result RunCommand(RhinoDoc doc, RunMode mode)
        {
            var go = new GetObject();

            go.SetCommandPrompt("Select objects to isolate");
            go.GroupSelect     = true;
            go.SubObjectSelect = false;
            go.GetMultiple(1, 0);
            if (go.CommandResult() != Result.Success)
            {
                return(go.CommandResult());
            }

            for (int i = 0; i < go.ObjectCount; i++)
            {
                var obj = go.Object(i).Object();
                if (null != obj)
                {
                    obj.Select(true);
                }
            }

            doc.Views.RedrawEnabled = false;

            RhinoApp.RunScript("_-Invert", false);

            string script = string.Format("_-Hide {0}", SampleCsCommandsPlugIn.Instance.IsolateIndex);

            RhinoApp.RunScript(script, false);

            SampleCsCommandsPlugIn.Instance.IsolateIndex++;

            if (go.ObjectsWerePreselected)
            {
                for (int i = 0; i < go.ObjectCount; i++)
                {
                    var obj = go.Object(i).Object();
                    if (null != obj)
                    {
                        obj.Select(true);
                    }
                }
            }

            doc.Views.RedrawEnabled = true;

            return(Result.Success);
        }
Exemplo n.º 7
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        public GH_GetterResult LoadFromSelection(out PointCloud pc)
        {
            var go = new GetObject();

            go.GeometryFilter = Rhino.DocObjects.ObjectType.Point | Rhino.DocObjects.ObjectType.PointSet;
            if (go.GetMultiple(1, 0) == Rhino.Input.GetResult.Cancel)
            {
                pc = null;
                return(GH_GetterResult.cancel);
            }
            pc = new PointCloud();

            for (int i = 0; i < go.ObjectCount; i++)
            {
                var obj   = go.Object(i);
                var rhObj = obj.Object();
                if (rhObj.ObjectType == ObjectType.Point)
                {
                    var pt  = obj.Point().Location;
                    var col = rhObj.Attributes.ObjectColor;
                    pc.Add(pt, col);
                }
                else if (rhObj.ObjectType == ObjectType.PointSet)
                {
                    using (PointCloud cloud = obj.PointCloud())
                    {
                        foreach (var item in cloud.AsEnumerable())
                        {
                            pc.Add(item.Location, item.Normal, item.Color);
                        }
                    }
                }
            }
            return(GH_GetterResult.success);
        }
Exemplo n.º 8
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        protected override Result RunCommand(RhinoDoc doc, RunMode mode)
        {
            // TODO: complete command.

            GetObject gpath = new GetObject();

            gpath.SetCommandPrompt("get the pathp");
            gpath.GeometryFilter  = Rhino.DocObjects.ObjectType.Curve;
            gpath.SubObjectSelect = false;
            gpath.Get();
            if (gpath.CommandResult() != Rhino.Commands.Result.Success)
            {
                return(gpath.CommandResult());
            }
            Rhino.DocObjects.ObjRef      my_objref = gpath.Object(0);
            Rhino.DocObjects.RhinoObject my_obj    = my_objref.Object();
            if (my_obj == null)
            {
                return(Rhino.Commands.Result.Failure);
            }
            int path_number = my_obj.Geometry.UserDictionary.Getint("path_number", -1);

            RhinoApp.WriteLine("the number of the object is {0}", path_number);
            return(Result.Success);
        }
        protected override Result RunCommand(RhinoDoc doc, RunMode mode)
        {
            var go = new GetObject();

            go.SetCommandPrompt("Select curves to extract min/max radius points");
            go.GeometryFilter = ObjectType.Curve;
            go.GetMultiple(1, 0);
            if (go.CommandResult() != Result.Success)
            {
                return(go.CommandResult());
            }

            for (var i = 0; i < go.ObjectCount; i++)
            {
                var curve = go.Object(i).Curve();
                if (null != curve)
                {
                    var points = new List <Point3d>();
                    if (GetMinMaxRadiusPoints(curve, points))
                    {
                        doc.Objects.AddPoints(points);
                    }
                }
            }

            doc.Views.Redraw();

            return(Result.Success);
        }
    protected override Result RunCommand(RhinoDoc doc, RunMode mode)
    {
      var go = new GetObject();
      go.SetCommandPrompt("Select mesh");
      go.GeometryFilter = ObjectType.Mesh;
      go.Get();
      if (go.CommandResult() != Result.Success)
        return go.CommandResult();

      var mesh = go.Object(0).Mesh();
      if (null == mesh)
        return Result.Failure;

      var unwelded_count = 0;
      for (var topei = 0; topei < mesh.TopologyEdges.Count; topei++)
      {
        if (IsUweldedMeshEdge(mesh, topei))
        {
          RhinoApp.WriteLine("Edge({0}) is unwelded", topei);
          unwelded_count++;
        }
      }
      RhinoApp.WriteLine("Unwelded edge count = {0}", unwelded_count);

      return Result.Success;
    }
Exemplo n.º 11
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        protected override Result RunCommand(RhinoDoc doc, RunMode mode)
        {
            var gm = new GetObject();

            gm.SetCommandPrompt("Select mesh");
            gm.GeometryFilter = ObjectType.Mesh;
            gm.Get();
            if (gm.CommandResult() != Result.Success)
            {
                return(gm.CommandResult());
            }

            var gp = new GetObject();

            gp.SetCommandPrompt("Select polyline");
            gp.GeometryFilter = ObjectType.Curve;
            gp.EnablePreSelect(false, true);
            gp.DeselectAllBeforePostSelect = false;
            gp.Get();
            if (gm.CommandResult() != Result.Success)
            {
                return(gp.CommandResult());
            }

            var mesh = gm.Object(0).Mesh();

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

            var curve = gp.Object(0).Curve();

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

            var polyline_curve = curve as PolylineCurve;

            if (null == polyline_curve)
            {
                RhinoApp.Write("Curve is not a polyline");
                return(Result.Nothing);
            }

            int[] face_ids;
            var   points = Rhino.Geometry.Intersect.Intersection.MeshPolyline(mesh, polyline_curve, out face_ids);

            if (points.Length > 0)
            {
                foreach (var pt in points)
                {
                    doc.Objects.AddPoint(pt);
                }
                doc.Views.Redraw();
            }

            return(Result.Success);
        }
Exemplo n.º 12
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        protected override Result RunCommand(RhinoDoc doc, RunMode mode)
        {
            // TODO: complete command.
            RhinoApp.WriteLine("The {0} command is under construction.", EnglishName);
            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());
            }
            Rhino.DocObjects.ObjRef      my_objref = gbrep.Object(0);
            Rhino.DocObjects.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);
            RhinoApp.WriteLine("the name of the object is {0}", brep.UserDictionary.GetString("name"));
            return(Result.Success);
        }
Exemplo n.º 13
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        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);
        }
Exemplo n.º 14
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        /// <summary>
        /// This function selects points
        /// </summary>
        /// <param name="message"></param>
        /// <param name="pointer"></param>
        public static void XSelectPoints(string message, out Point3dList pointer)
        {
            // variables are:
            // string message
            // out Point3dList points - the out won't be recognized unless you have Rhino.Collections and the 'out parameters
            // have to be filled in the function.
            // don't need a doc because we won't write anything to the document table, only reading.


            pointer = new Point3dList();

            var go = new GetObject();

            go.GeometryFilter = Rhino.DocObjects.ObjectType.Point;
            go.SetCommandPrompt(message);
            go.GetMultiple(1, 0);

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

            for (var i = 0; i < go.ObjectCount; i++)
            {
                var point = go.Object(i).Point();
                if (null != point)
                {
                    pointer.Add(point.Location);
                }
            }
        }
Exemplo n.º 15
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        protected override Result RunCommand(RhinoDoc doc, RunMode mode)
        {
            var go = new GetObject();

            go.SetCommandPrompt("Select closed, planar curves for containment test");
            go.GeometryFilter          = ObjectType.Curve;
            go.GeometryAttributeFilter = GeometryAttributeFilter.ClosedCurve;
            go.GetMultiple(2, 2);
            if (go.CommandResult() != Result.Success)
            {
                return(go.CommandResult());
            }

            var plane = go.View().ActiveViewport.ConstructionPlane();
            var tol   = doc.ModelAbsoluteTolerance;

            var crvs = new Curve[2];

            for (var i = 0; i < 2; i++)
            {
                var rh_ref = go.Object(i);
                var rh_obj = rh_ref.Object();
                crvs[i] = rh_ref.Curve();
                if (null == rh_obj || null == crvs[i])
                {
                    return(Result.Failure);
                }

                if (!crvs[i].IsPlanar(tol))
                {
                    RhinoApp.WriteLine("Curve is not planar");
                    rh_obj.Select(true);
                    doc.Views.Redraw();
                    return(Result.Failure);
                }
            }

            var result = Curve.PlanarClosedCurveRelationship(crvs[0], crvs[1], plane, tol);

            switch (result)
            {
            case RegionContainment.Disjoint:
                RhinoApp.WriteLine("There is no common area between the two regions.");
                break;

            case RegionContainment.MutualIntersection:
                RhinoApp.WriteLine("The two curves intersect. There is therefore no full containment relationship either way.");
                break;

            case RegionContainment.AInsideB:
                RhinoApp.WriteLine("The region bounded by the first curve is inside of the second curve.");
                break;

            case RegionContainment.BInsideA:
                RhinoApp.WriteLine("The region bounded by the second curve is inside of the second first.");
                break;
            }

            return(Result.Success);
        }
Exemplo n.º 16
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        /// <summary>
        /// This function selects some curves
        /// </summary>
        ///
        ///
        public static bool XSelectCurves(string message, out CurveList curves)
        {
            curves = new CurveList();

            var gc = new GetObject();

            gc.SetCommandPrompt(message);
            gc.GeometryFilter = Rhino.DocObjects.ObjectType.Curve;
            gc.GetMultiple(1, 0);

            if (gc.CommandResult() != Result.Success)
            {
                return(false);
            }

            for (var i = 0; i < gc.ObjectCount; i++)
            {
                var curve = gc.Object(i).Curve();
                if (null != curve)
                {
                    curves.Add(curve);
                }
            }

            return(true);
        }
Exemplo n.º 17
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        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);
        }
    public static Result DupMeshBoundary(RhinoDoc doc)
    {
        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);
    }
Exemplo n.º 19
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        protected override Result RunCommand(RhinoDoc doc, RunMode mode)
        {
            var go = new GetObject();

            go.SetCommandPrompt("Select objects");
            go.GroupSelect = true;
            go.GetMultiple(1, 0);
            if (go.CommandResult() != Result.Success)
            {
                return(go.CommandResult());
            }

            for (var i = 0; i < go.ObjectCount; i++)
            {
                var obj_ref = go.Object(i);
                var obj     = obj_ref.Object();
                if (null != obj)
                {
                    var value = obj.Attributes.GetUserString(SampleCsUserStringData.Key);
                    if (!string.IsNullOrEmpty(value))
                    {
                        RhinoApp.WriteLine(string.Format("<{0}> {1}", SampleCsUserStringData.Key, value));
                    }
                }
            }

            return(Result.Success);
        }
Exemplo n.º 20
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        protected override Result RunCommand(RhinoDoc doc, RunMode mode)
        {
            var go = new GetObject();

            go.SetCommandPrompt("Select polygon meshes to unweld");
            go.GeometryFilter = ObjectType.Mesh;
            go.GetMultiple(1, 0);
            if (go.CommandResult() != Result.Success)
            {
                return(go.CommandResult());
            }

            foreach (var obj_ref in go.Objects())
            {
                var old_mesh = obj_ref.Mesh();
                if (null != old_mesh)
                {
                    var new_mesh = UnweldMesh(old_mesh);
                    if (null != new_mesh && new_mesh.IsValid)
                    {
                        doc.Objects.Replace(go.Object(0), new_mesh);
                    }
                }
            }

            doc.Views.Redraw();

            return(Result.Success);
        }
Exemplo n.º 21
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    public static Result ExtendCurve(RhinoDoc doc)
    {
        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.DisablePreSelect();
        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);
    }
Exemplo n.º 22
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        protected override Result RunCommand(RhinoDoc doc, RunMode mode)
        {
            var go = new GetObject();

            //GetObject is more general, and allows you to select any type of object.

            go.GeometryFilter = Rhino.DocObjects.ObjectType.Point;

            //user can only select points

            go.GetMultiple(1, 0);

            if (go.CommandResult() ! = Result.Success)
            {
                return(go.CommandResult());
            }
            // if statement above is just a check to tell us what to do if the command is a success/failure

            var points = new List <Point>(go.ObjectCount);

            // now we have a list, we just have to save them.  Let's use a different type of array using
            // the System.Collections namespace.  The size of the array will be the size of the ObjectCount list.

            for (var i = 0; i < go.ObjectCount; i++)
            {
                var point = go.Object(i).Point();
                if (null != point)
                {
                }
            }

            RhinoApp.WriteLine("The user selected {0} points successfully", points.Count.ToString());

            return(Result.Success);
        }
Exemplo n.º 23
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        /// <summary>
        /// This function selects breps
        /// </summary>
        ///
        ///
        public static bool XSelectBreps(string message, out RhinoList <Brep> breps)
        {
            breps = new RhinoList <Brep>();

            int i;

            var gc = new GetObject();


            gc.SetCommandPrompt("Select some Breps");
            gc.EnablePreSelect(true, true);
            gc.GeometryFilter = Rhino.DocObjects.ObjectType.Brep;
            gc.GetMultiple(1, 0);

            //we do our double check to make sure the user selected something

            if (gc.CommandResult() != Result.Success)
            {
                return(false);
            }


            for (i = 0; i < gc.ObjectCount; i++)
            {
                var brep = gc.Object(i).Brep();
                if (null != brep)
                {
                    breps.Add(brep);
                }
            }

            return(true);
        }
Exemplo n.º 24
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);
        }
Exemplo n.º 25
0
        protected override Result RunCommand(RhinoDoc doc, RunMode mode)
        {
            var go = new GetObject();

            go.SetCommandPrompt("Select curve");
            go.GeometryFilter = ObjectType.Curve;
            go.Get();
            if (go.CommandResult() != Result.Success)
            {
                return(go.CommandResult());
            }

            var curve = go.Object(0).Curve();

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

            // Get start and end point the easy way
            //RhinoApp.WriteLine("Start point = {0}", curve.PointAtStart);
            //RhinoApp.WriteLine("End point = {0}", curve.PointAtEnd);

            // Get start, mid, and end points
            double  t;
            Point3d point;

            if (curve.NormalizedLengthParameter(0.0, out t))
            {
                point = curve.PointAt(t);
                doc.Objects.AddPoint(point);
                if (curve.IsClosed)
                {
                    RhinoApp.WriteLine("Start/End point = {0}", point);
                }
                else
                {
                    RhinoApp.WriteLine("Start point = {0}", point);
                }
            }

            if (curve.NormalizedLengthParameter(0.5, out t))
            {
                point = curve.PointAt(t);
                doc.Objects.AddPoint(point);
                RhinoApp.WriteLine("Mid point = {0}", point);
            }

            if (!curve.IsClosed && curve.NormalizedLengthParameter(1.0, out t))
            {
                point = curve.PointAt(t);
                doc.Objects.AddPoint(point);
                RhinoApp.WriteLine("End point = {0}", point);
            }

            doc.Views.Redraw();

            return(Result.Success);
        }
Exemplo n.º 26
0
        protected override Result RunCommand(RhinoDoc doc, RunMode mode)
        {
            RhinoApp.WriteLine("안녕하세요 방만드는기계 입니다.");

            //
            Polyline outline  = new Polyline();
            Polyline coreLine = new Polyline();
            Polyline landing  = new Polyline();

            GetObject getPolyline = new GetObject();

            getPolyline.SetCommandPrompt("외곽선,코어,랜딩 입력해주세요");
            getPolyline.GeometryFilter          = Rhino.DocObjects.ObjectType.Curve;
            getPolyline.GeometryAttributeFilter = GeometryAttributeFilter.ClosedCurve;
            getPolyline.SubObjectSelect         = false;

            getPolyline.GetMultiple(3, 0);

            if (getPolyline.CommandResult() != Result.Success)
            {
                RhinoApp.WriteLine("달라고!");
                return(getPolyline.CommandResult());
            }
            else
            {
                RhinoApp.WriteLine("입력받았습니다.");
            }

            if (null == getPolyline.Object(0).Curve())
            {
                RhinoApp.WriteLine("없잖아!");
                return(getPolyline.CommandResult());
            }

            List <Polyline> testPoly = new List <Polyline>();

            foreach (var i in getPolyline.Objects())
            {
                testPoly.Add(CurveTools.ToPolyline(i.Curve()));
            }

            outline  = testPoly[0];
            coreLine = testPoly[1];
            landing  = testPoly[2];


            List <Polyline> rooms = Debugger.DebugRoom(outline, coreLine, landing);

            foreach (Polyline i in rooms)
            {
                doc.Objects.AddCurve(i.ToNurbsCurve());
            }

            doc.Views.Redraw();

            RhinoApp.WriteLine("최선을 다했습니다만...");

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

            go.SetCommandPrompt("Select closed curve for seam adjustment");
            go.GeometryFilter          = ObjectType.Curve;
            go.GeometryAttributeFilter = GeometryAttributeFilter.ClosedCurve;
            go.SubObjectSelect         = false;
            go.Get();
            if (go.CommandResult() != Result.Success)
            {
                return(go.CommandResult());
            }

            Curve curve = go.Object(0).Curve();

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

            GetPoint gp = new GetPoint();

            gp.SetCommandPrompt("New seam location");
            gp.Constrain(curve, false);
            gp.Get();
            if (gp.CommandResult() != Result.Success)
            {
                return(gp.CommandResult());
            }

            Point3d point = gp.Point();

            Curve  new_curve = curve.DuplicateCurve();
            double t         = Rhino.RhinoMath.UnsetValue;

            if (new_curve.ClosestPoint(point, out t))
            {
                if (new_curve.ChangeClosedCurveSeam(t))
                {
                    doc.Objects.Replace(go.Object(0), new_curve);
                }
            }

            return(Result.Success);
        }
Exemplo n.º 28
0
        protected override Result RunCommand(RhinoDoc doc, RunMode mode)
        {
            int i;

            CurveList selectedcurves = new CurveList();
            int       divnr          = 10;

            Point3d[] divptarray;
            //declares variable as a standard array in .NET, for use with the out overload below.



            // step one, select curves --------------------------

            var gc = new GetObject();

            gc.SetCommandPrompt("Select curves to divide into 10 sections (start+end points added)");
            gc.GeometryFilter = ObjectType.Curve;
            gc.GetMultiple(1, 0);

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


            //enter the loop

            for (i = 0; i < gc.ObjectCount; i++)
            {
                var curve = gc.Object(i).Curve();
                if (null != curve && !curve.IsShort(RhinoMath.ZeroTolerance))
                {
                    selectedcurves.Add(curve);
                }
                // ADD THE CURVE TO THE CURVES LIST, expanding dynamically through the loop
            }

            if (selectedcurves.Count < 1)
            {
                return(Result.Failure);
            }

            //step 2, divide curves ----------------------------------

            for (i = 0; i < selectedcurves.Count; i++)
            {
                double[] parameters = selectedcurves[i].DivideByCount(divnr, true, out divptarray);

                UsefulFunctions.XDrawPoints(divptarray, doc);

                UsefulFunctions.XDrawCurveTangents(parameters, selectedcurves[i], doc);
            }



            return(Result.Success);
        }
Exemplo n.º 29
0
        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_;

            DijkstraGraph my_graph = p.graph;
            GetObject     gcurve   = new GetObject();

            gcurve.SetCommandPrompt("Get nurbscurve");
            gcurve.GeometryFilter  = Rhino.DocObjects.ObjectType.Curve;
            gcurve.SubObjectSelect = false;
            gcurve.Get();
            if (gcurve.CommandResult() != Result.Success)
            {
                return(gcurve.CommandResult());
            }
            ObjRef      curve_objref              = gcurve.Object(0);
            RhinoObject curve_obj                 = curve_objref.Object();
            Curve       selected_curve            = curve_objref.Curve();
            NurbsCurve  nurbs_curve               = selected_curve.ToNurbsCurve();
            Guid        path_id                   = selected_curve.UserDictionary.GetGuid("PathID");
            IEnumerable <RhinoObject> path_objref = doc.Objects.GetObjectList(ObjectType.Curve);

            foreach (RhinoObject path in path_objref)
            {
                doc.Objects.Delete(path, true);
            }
            List <NurbsCurve> new_path_list = new List <NurbsCurve>();

            new_path_list = my_graph.DijkstraPath_DeletePath(path_id);

            ObjectAttributes my_attributes = new ObjectAttributes();

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

            //doc.Objects.Delete(my_objref1, true);

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

            doc.Views.Redraw();

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

            go.SetCommandPrompt("Select holes");
            go.GeometryFilter          = ObjectType.BrepLoop;
            go.GeometryAttributeFilter = GeometryAttributeFilter.InnerLoop;
            go.GetMultiple(1, 0);
            if (go.CommandResult() == Result.Success)
            {
                for (var i = 0; i < go.ObjectCount; i++)
                {
                    var obj_ref = go.Object(i);
                    var ci      = obj_ref.GeometryComponentIndex;
                    if (ci.ComponentIndexType != ComponentIndexType.BrepLoop)
                    {
                        return(Result.Failure);
                    }

                    var brep = obj_ref.Brep();
                    if (null == brep)
                    {
                        return(Result.Failure);
                    }

                    var loop = brep.Loops[ci.Index];
                    if (null == loop)
                    {
                        return(Result.Failure);
                    }

                    for (var lti = 0; lti < loop.Trims.Count; lti++)
                    {
                        var ti   = loop.Trims[lti].TrimIndex;
                        var trim = brep.Trims[ti];
                        if (null != trim)
                        {
                            var edge = brep.Edges[trim.Edge.EdgeIndex];
                            if (null != edge)
                            {
                                // TODO: do somethign with edge curve.
                                // In this case, we'll just add a copy to the document.
                                var curve = edge.DuplicateCurve();
                                if (null != curve)
                                {
                                    doc.Objects.AddCurve(curve);
                                }
                            }
                        }
                    }
                }
            }

            doc.Views.Redraw();

            return(Result.Success);
        }