public override void init() { resetVariables(); //support undo function if (mScene != null && (afterCurveCount - beforeCurveCount) > 0) { if (mScene.iCurveList[mScene.iCurveList.Count - 1].GetUserString(CurveData.CurveOnObj.ToString()) != "") { Guid curveOnObjId = new Guid(mScene.iCurveList[mScene.iCurveList.Count - 1].GetUserString(CurveData.CurveOnObj.ToString())); ObjRef curveOnObjRef = new ObjRef(curveOnObjId); if (curveOnObjRef.Object().Attributes.Name.Contains("MoveP")) { UtilOld.removeRhinoObject(ref mScene, curveOnObjRef.ObjectId); } } mScene.iCurveList.RemoveAt(mScene.iCurveList.Count - 1); pointOnObjRef = null; } if (drawnType != DrawnType.In3D && drawnType != DrawnType.None) { UtilOld.showLaser(ref mScene, true); if (drawnType == DrawnType.Plane) { UtilOld.setPlaneAlpha(ref mScene, 0.4f); } //init rayCastingObjs Rhino.DocObjects.ObjectEnumeratorSettings settings = new Rhino.DocObjects.ObjectEnumeratorSettings(); settings.ObjectTypeFilter = Rhino.DocObjects.ObjectType.Brep; foreach (Rhino.DocObjects.RhinoObject rhObj in mScene.rhinoDoc.Objects.GetObjectList(settings)) { bool b1 = (drawnType == DrawnType.Plane) && rhObj.Attributes.Name.Contains("plane"); bool b2 = (drawnType == DrawnType.Surface) && (rhObj.Attributes.Name.Contains("brepMesh") || rhObj.Attributes.Name.Contains("aprint") || rhObj.Attributes.Name.Contains("patchSurface")); bool b3 = (drawnType == DrawnType.Reference) && rhObj.Attributes.Name.Contains("railPlane"); if (b1 || b2 || b3) { rayCastingObjs.Add(new ObjRef(rhObj.Id)); } } Geometry.Geometry geo = new Geometry.DrawPointMarker(new OpenTK.Vector3(0, 0, 0)); Material.Material m = new Material.SingleColorMaterial(1, 1, 1, 0); drawPoint = new SceneNode("drawPoint", ref geo, ref m); UtilOld.addSceneNode(ref mScene, ref drawPoint); } else { UtilOld.showLaser(ref mScene, false); } }
public override void init() { resetVariables(); //support undo function if (mScene != null && (afterCurveCount - beforeCurveCount) > 0) { //don't have curveOnObject don't need to do anything if (mScene.iCurveList[mScene.iCurveList.Count - 1].GetUserString(CurveData.CurveOnObj.ToString()) != "") { Guid curveOnObjId = new Guid(mScene.iCurveList[mScene.iCurveList.Count - 1].GetUserString(CurveData.CurveOnObj.ToString())); ObjRef curveOnObjRef = new ObjRef(curveOnObjId); if (curveOnObjRef.Object().Attributes.Name.Contains("MoveP")) { UtilOld.removeRhinoObject(ref mScene, curveOnObjRef.ObjectId); } } mScene.iCurveList.RemoveAt(mScene.iCurveList.Count - 1); if (renderObjSN != null) { UtilOld.removeSceneNode(ref mScene, ref renderObjSN); renderObjSN = null; } } // Set initial timeout that cannot be skipped to prevent double selections. mInitialSelectOKTime = mScene.gameTime + defaultInitialDelay; if (drawnType == DrawnType.Reference) { isProjection = true; } else { isProjection = false; } UtilOld.showLaser(ref mScene, false); }
public override void init() { resetVariables(); //support undo function if (mScene != null && (afterCurveCount - beforeCurveCount) > 0) { if (mScene.iCurveList[mScene.iCurveList.Count - 1].GetUserString(CurveData.CurveOnObj.ToString()) != "") { Guid curveOnObjId = new Guid(mScene.iCurveList[mScene.iCurveList.Count - 1].GetUserString(CurveData.CurveOnObj.ToString())); ObjRef curveOnObjRef = new ObjRef(curveOnObjId); if (curveOnObjRef.Object().Attributes.Name.Contains("railPlane") || curveOnObjRef.Object().Attributes.Name.Contains("MoveP")) { UtilOld.removeRhinoObject(ref mScene, curveOnObjRef.ObjectId); } } mScene.iCurveList.RemoveAt(mScene.iCurveList.Count - 1); UtilOld.removeSceneNode(ref mScene, ref strokeSN); strokeSN = null; //need to clear stroke tprint SceneNode as well here if (renderObjSN != null) { UtilOld.removeSceneNode(ref mScene, ref renderObjSN); renderObjSN = null; } //Util.removeRhinoObject(ref mScene, curveOnObjRef.ObjectId); curveOnObjRef = null; if (railPlaneSN != null) { UtilOld.removeRhinoObjectSceneNode(ref mScene, ref railPlaneSN); railPlaneSN = null; } } if (drawnType != DrawnType.In3D && drawnType != DrawnType.None) { UtilOld.showLaser(ref mScene, true); //create and add referece planes to scene if (drawnType == DrawnType.Reference) { Vector3 railPlaneNormal = UtilOld.RhinoToOpenTKVector(UtilOld.getVectorfromString(mScene.iCurveList[mScene.iCurveList.Count - 1].GetUserString(CurveData.PlaneNormal.ToString()))); OpenTK.Vector3 worldUpAxis = new Vector3(0, 0, 1); //trick to avoid cross product of 2 parallel vetors if (railPlaneNormal.X == 0 && railPlaneNormal.Y == 0 && railPlaneNormal.Z == 1) { railPlaneNormal = new Vector3(0, 0.005f, 1); } Plane railPlane = new Plane(mScene.iCurveList[mScene.iCurveList.Count - 1].GetBoundingBox(true).Center, UtilOld.openTkToRhinoVector(Vector3.Cross(railPlaneNormal, worldUpAxis))); float planeSize = 240; PlaneSurface plane_surface2 = new PlaneSurface(railPlane, new Interval(-planeSize, planeSize), new Interval(-planeSize, planeSize)); Brep railPlane2 = Brep.CreateFromSurface(plane_surface2); Guid railPlaneGuid = UtilOld.addRhinoObjectSceneNode(ref mScene, ref railPlane2, ref railPlane_m, "railPlane", out railPlaneSN); } else if (drawnType == DrawnType.Plane) { UtilOld.setPlaneAlpha(ref mScene, 0.4f); } //init rayCastingObjs Rhino.DocObjects.ObjectEnumeratorSettings settings = new Rhino.DocObjects.ObjectEnumeratorSettings(); settings.ObjectTypeFilter = Rhino.DocObjects.ObjectType.Brep; foreach (Rhino.DocObjects.RhinoObject rhObj in mScene.rhinoDoc.Objects.GetObjectList(settings)) { bool b1 = (drawnType == DrawnType.Plane) && rhObj.Attributes.Name.Contains("plane"); bool b2 = (drawnType == DrawnType.Surface) && (rhObj.Attributes.Name.Contains("brepMesh") || rhObj.Attributes.Name.Contains("aprint") || rhObj.Attributes.Name.Contains("patchSurface")); bool b3 = (drawnType == DrawnType.Reference) && rhObj.Attributes.Name.Contains("railPlane"); if (b1 || b2 || b3) { rayCastingObjs.Add(new ObjRef(rhObj.Id)); } } Geometry.Geometry geo = new Geometry.DrawPointMarker(new OpenTK.Vector3(0, 0, 0)); Material.Material m = new Material.SingleColorMaterial(1, 1, 1, 0);//TODO: teseting alpha working or not drawPoint = new SceneNode("drawPoint", ref geo, ref m); UtilOld.addSceneNode(ref mScene, ref drawPoint); } else { UtilOld.showLaser(ref mScene, false); } //generate snap points when we need to draw from the center of the shapes, drawnType could be DrawnType.Reference or DrawnType.In3D if (dynamicRender == "Extrude" || dynamicRender == "Sweep" || drawnType == DrawnType.Reference) { shouldSnap = true; ShapeType shapeType = (ShapeType)mScene.selectionDic[SelectionKey.Profile1Shape]; Circle circle; Rectangle3d rect; if (shapeType == ShapeType.Circle) { if (mScene.iCurveList[mScene.iCurveList.Count - 1].TryGetCircle(out circle)) { snapPointsList.Add(circle.Center); } } else if (shapeType == ShapeType.Rect) { Rhino.Geometry.Polyline polyline; if (mScene.iCurveList[mScene.iCurveList.Count - 1].TryGetPolyline(out polyline)) { rect = Rectangle3d.CreateFromPolyline(polyline); snapPointsList.Add(rect.Center); } } //visualize the snap points Geometry.Geometry geo = new Geometry.DrawPointMarker(new Vector3(0, 0, 0)); Material.Material m = new Material.SingleColorMaterial(0, 1, 0, 1); UtilOld.MarkPointVR(ref mScene, UtilOld.platformToVRPoint(ref mScene, UtilOld.RhinoToOpenTKPoint(snapPointsList[0])), ref geo, ref m, out snapPointSN); } d = new generateModel_Delegate(generateModel); }