/// <summary> /// This is the method that actually does the work. /// </summary> /// <param name="DA">The DA object is used to retrieve from inputs and store in outputs.</param> protected override void SolveInstance(IGH_DataAccess DA) { // =============================================================================================== // Read input parameters // =============================================================================================== double length = 1.0; double width = 1.0; double area = 10; //get values from grasshopper if (!DA.GetData(0, ref length)) { return; } if (!DA.GetData(1, ref width)) { return; } if (!DA.GetData(2, ref area)) { return; } // =============================================================================================== // Applying Values to Class // =============================================================================================== double u = length / width; double v = Math.Sqrt(u * area); double w = v / u; Rectangle3d rect = new Rectangle3d(Plane.WorldXY, Math.Ceiling(v), Math.Ceiling(w)); // =============================================================================================== // Exporting Data to Grasshopper // =============================================================================================== //values for export var r = new GH_Rectangle(rect); var a = rect.Area; var c = rect.Center; //Export data to grasshopper DA.SetData(0, r); DA.SetData(1, a); DA.SetData(2, c); }
public void SetInputs(List <DataTree <ResthopperObject> > values) { foreach (var tree in values) { if (!_input.TryGetValue(tree.ParamName, out var inputGroup)) { continue; } if (inputGroup.AlreadySet(tree)) { Console.WriteLine("Skipping input tree... same input"); continue; } inputGroup.CacheTree(tree); inputGroup.Param.VolatileData.Clear(); inputGroup.Param.ExpireSolution(true); if (inputGroup.Param is Param_Point) { foreach (KeyValuePair <string, List <ResthopperObject> > entree in tree) { GH_Path path = new GH_Path(GhPath.FromString(entree.Key)); for (int i = 0; i < entree.Value.Count; i++) { ResthopperObject restobj = entree.Value[i]; Rhino.Geometry.Point3d rPt = JsonConvert.DeserializeObject <Rhino.Geometry.Point3d>(restobj.Data); GH_Point data = new GH_Point(rPt); inputGroup.Param.AddVolatileData(path, i, data); } } continue; } if (inputGroup.Param is Param_Vector) { foreach (KeyValuePair <string, List <ResthopperObject> > entree in tree) { GH_Path path = new GH_Path(GhPath.FromString(entree.Key)); for (int i = 0; i < entree.Value.Count; i++) { ResthopperObject restobj = entree.Value[i]; Rhino.Geometry.Vector3d rhVector = JsonConvert.DeserializeObject <Rhino.Geometry.Vector3d>(restobj.Data); GH_Vector data = new GH_Vector(rhVector); inputGroup.Param.AddVolatileData(path, i, data); } } continue; } if (inputGroup.Param is Param_Integer) { foreach (KeyValuePair <string, List <ResthopperObject> > entree in tree) { GH_Path path = new GH_Path(GhPath.FromString(entree.Key)); for (int i = 0; i < entree.Value.Count; i++) { ResthopperObject restobj = entree.Value[i]; int rhinoInt = JsonConvert.DeserializeObject <int>(restobj.Data); GH_Integer data = new GH_Integer(rhinoInt); inputGroup.Param.AddVolatileData(path, i, data); } } continue; } if (inputGroup.Param is Param_Number) { foreach (KeyValuePair <string, List <ResthopperObject> > entree in tree) { GH_Path path = new GH_Path(GhPath.FromString(entree.Key)); for (int i = 0; i < entree.Value.Count; i++) { ResthopperObject restobj = entree.Value[i]; double rhNumber = JsonConvert.DeserializeObject <double>(restobj.Data); GH_Number data = new GH_Number(rhNumber); inputGroup.Param.AddVolatileData(path, i, data); } } continue; } if (inputGroup.Param is Param_String) { foreach (KeyValuePair <string, List <ResthopperObject> > entree in tree) { GH_Path path = new GH_Path(GhPath.FromString(entree.Key)); for (int i = 0; i < entree.Value.Count; i++) { ResthopperObject restobj = entree.Value[i]; string rhString = restobj.Data; GH_String data = new GH_String(rhString); inputGroup.Param.AddVolatileData(path, i, data); } } continue; } if (inputGroup.Param is Param_Line) { foreach (KeyValuePair <string, List <ResthopperObject> > entree in tree) { GH_Path path = new GH_Path(GhPath.FromString(entree.Key)); for (int i = 0; i < entree.Value.Count; i++) { ResthopperObject restobj = entree.Value[i]; Rhino.Geometry.Line rhLine = JsonConvert.DeserializeObject <Rhino.Geometry.Line>(restobj.Data); GH_Line data = new GH_Line(rhLine); inputGroup.Param.AddVolatileData(path, i, data); } } continue; } if (inputGroup.Param is Param_Curve) { foreach (KeyValuePair <string, List <ResthopperObject> > entree in tree) { GH_Path path = new GH_Path(GhPath.FromString(entree.Key)); for (int i = 0; i < entree.Value.Count; i++) { ResthopperObject restobj = entree.Value[i]; GH_Curve ghCurve; try { Rhino.Geometry.Polyline data = JsonConvert.DeserializeObject <Rhino.Geometry.Polyline>(restobj.Data); Rhino.Geometry.Curve c = new Rhino.Geometry.PolylineCurve(data); ghCurve = new GH_Curve(c); } catch { var dict = JsonConvert.DeserializeObject <Dictionary <string, string> >(restobj.Data); var c = (Rhino.Geometry.Curve)Rhino.Runtime.CommonObject.FromJSON(dict); ghCurve = new GH_Curve(c); } inputGroup.Param.AddVolatileData(path, i, ghCurve); } } continue; } if (inputGroup.Param is Param_Circle) { foreach (KeyValuePair <string, List <ResthopperObject> > entree in tree) { GH_Path path = new GH_Path(GhPath.FromString(entree.Key)); for (int i = 0; i < entree.Value.Count; i++) { ResthopperObject restobj = entree.Value[i]; Rhino.Geometry.Circle rhCircle = JsonConvert.DeserializeObject <Rhino.Geometry.Circle>(restobj.Data); GH_Circle data = new GH_Circle(rhCircle); inputGroup.Param.AddVolatileData(path, i, data); } } continue; } if (inputGroup.Param is Param_Plane) { foreach (KeyValuePair <string, List <ResthopperObject> > entree in tree) { GH_Path path = new GH_Path(GhPath.FromString(entree.Key)); for (int i = 0; i < entree.Value.Count; i++) { ResthopperObject restobj = entree.Value[i]; Rhino.Geometry.Plane rhPlane = JsonConvert.DeserializeObject <Rhino.Geometry.Plane>(restobj.Data); GH_Plane data = new GH_Plane(rhPlane); inputGroup.Param.AddVolatileData(path, i, data); } } continue; } if (inputGroup.Param is Param_Rectangle) { foreach (KeyValuePair <string, List <ResthopperObject> > entree in tree) { GH_Path path = new GH_Path(GhPath.FromString(entree.Key)); for (int i = 0; i < entree.Value.Count; i++) { ResthopperObject restobj = entree.Value[i]; Rhino.Geometry.Rectangle3d rhRectangle = JsonConvert.DeserializeObject <Rhino.Geometry.Rectangle3d>(restobj.Data); GH_Rectangle data = new GH_Rectangle(rhRectangle); inputGroup.Param.AddVolatileData(path, i, data); } } continue; } if (inputGroup.Param is Param_Box) { foreach (KeyValuePair <string, List <ResthopperObject> > entree in tree) { GH_Path path = new GH_Path(GhPath.FromString(entree.Key)); for (int i = 0; i < entree.Value.Count; i++) { ResthopperObject restobj = entree.Value[i]; Rhino.Geometry.Box rhBox = JsonConvert.DeserializeObject <Rhino.Geometry.Box>(restobj.Data); GH_Box data = new GH_Box(rhBox); inputGroup.Param.AddVolatileData(path, i, data); } } continue; } if (inputGroup.Param is Param_Surface) { foreach (KeyValuePair <string, List <ResthopperObject> > entree in tree) { GH_Path path = new GH_Path(GhPath.FromString(entree.Key)); for (int i = 0; i < entree.Value.Count; i++) { ResthopperObject restobj = entree.Value[i]; Rhino.Geometry.Surface rhSurface = JsonConvert.DeserializeObject <Rhino.Geometry.Surface>(restobj.Data); GH_Surface data = new GH_Surface(rhSurface); inputGroup.Param.AddVolatileData(path, i, data); } } continue; } if (inputGroup.Param is Param_Brep) { foreach (KeyValuePair <string, List <ResthopperObject> > entree in tree) { GH_Path path = new GH_Path(GhPath.FromString(entree.Key)); for (int i = 0; i < entree.Value.Count; i++) { ResthopperObject restobj = entree.Value[i]; Rhino.Geometry.Brep rhBrep = JsonConvert.DeserializeObject <Rhino.Geometry.Brep>(restobj.Data); GH_Brep data = new GH_Brep(rhBrep); inputGroup.Param.AddVolatileData(path, i, data); } } continue; } if (inputGroup.Param is Param_Mesh) { foreach (KeyValuePair <string, List <ResthopperObject> > entree in tree) { GH_Path path = new GH_Path(GhPath.FromString(entree.Key)); for (int i = 0; i < entree.Value.Count; i++) { ResthopperObject restobj = entree.Value[i]; Rhino.Geometry.Mesh rhMesh = JsonConvert.DeserializeObject <Rhino.Geometry.Mesh>(restobj.Data); GH_Mesh data = new GH_Mesh(rhMesh); inputGroup.Param.AddVolatileData(path, i, data); } } continue; } if (inputGroup.Param is GH_NumberSlider) { foreach (KeyValuePair <string, List <ResthopperObject> > entree in tree) { GH_Path path = new GH_Path(GhPath.FromString(entree.Key)); for (int i = 0; i < entree.Value.Count; i++) { ResthopperObject restobj = entree.Value[i]; double rhNumber = JsonConvert.DeserializeObject <double>(restobj.Data); GH_Number data = new GH_Number(rhNumber); inputGroup.Param.AddVolatileData(path, i, data); } } continue; } if (inputGroup.Param is Param_Boolean || inputGroup.Param is GH_BooleanToggle) { foreach (KeyValuePair <string, List <ResthopperObject> > entree in tree) { GH_Path path = new GH_Path(GhPath.FromString(entree.Key)); for (int i = 0; i < entree.Value.Count; i++) { ResthopperObject restobj = entree.Value[i]; bool boolean = JsonConvert.DeserializeObject <bool>(restobj.Data); GH_Boolean data = new GH_Boolean(boolean); inputGroup.Param.AddVolatileData(path, i, data); } } continue; } if (inputGroup.Param is GH_Panel) { foreach (KeyValuePair <string, List <ResthopperObject> > entree in tree) { GH_Path path = new GH_Path(GhPath.FromString(entree.Key)); for (int i = 0; i < entree.Value.Count; i++) { ResthopperObject restobj = entree.Value[i]; string rhString = JsonConvert.DeserializeObject <string>(restobj.Data); GH_String data = new GH_String(rhString); inputGroup.Param.AddVolatileData(path, i, data); } } continue; } } }
public void SetInputs(List <DataTree <ResthopperObject> > values) { foreach (var tree in values) { if (!_input.TryGetValue(tree.ParamName, out var inputGroup)) { continue; } if (inputGroup.AlreadySet(tree)) { LogDebug("Skipping input tree... same input"); continue; } inputGroup.CacheTree(tree); IGH_ContextualParameter contextualParameter = inputGroup.Param as IGH_ContextualParameter; if (contextualParameter != null) { switch (ParamTypeName(inputGroup.Param)) { case "Number": { foreach (KeyValuePair <string, List <ResthopperObject> > entree in tree) { double[] doubles = new double[entree.Value.Count]; for (int i = 0; i < doubles.Length; i++) { ResthopperObject restobj = entree.Value[i]; doubles[i] = JsonConvert.DeserializeObject <double>(restobj.Data); } contextualParameter.AssignContextualData(doubles); break; } } break; case "Integer": { foreach (KeyValuePair <string, List <ResthopperObject> > entree in tree) { int[] integers = new int[entree.Value.Count]; for (int i = 0; i < integers.Length; i++) { ResthopperObject restobj = entree.Value[i]; integers[i] = JsonConvert.DeserializeObject <int>(restobj.Data); } contextualParameter.AssignContextualData(integers); break; } } break; case "Point": { foreach (KeyValuePair <string, List <ResthopperObject> > entree in tree) { Point3d[] points = new Point3d[entree.Value.Count]; for (int i = 0; i < entree.Value.Count; i++) { ResthopperObject restobj = entree.Value[i]; points[i] = JsonConvert.DeserializeObject <Rhino.Geometry.Point3d>(restobj.Data); } contextualParameter.AssignContextualData(points); break; } } break; case "Line": { foreach (KeyValuePair <string, List <ResthopperObject> > entree in tree) { Line[] lines = new Line[entree.Value.Count]; for (int i = 0; i < entree.Value.Count; i++) { ResthopperObject restobj = entree.Value[i]; lines[i] = JsonConvert.DeserializeObject <Rhino.Geometry.Line>(restobj.Data); } contextualParameter.AssignContextualData(lines); break; } } break; case "Text": { foreach (KeyValuePair <string, List <ResthopperObject> > entree in tree) { string[] strings = new string[entree.Value.Count]; for (int i = 0; i < entree.Value.Count; i++) { ResthopperObject restobj = entree.Value[i]; strings[i] = restobj.Data.Trim(new char[] { '"' }); } contextualParameter.AssignContextualData(strings); break; } } break; case "Geometry": { foreach (KeyValuePair <string, List <ResthopperObject> > entree in tree) { GeometryBase[] geometries = new GeometryBase[entree.Value.Count]; for (int i = 0; i < entree.Value.Count; i++) { ResthopperObject restobj = entree.Value[i]; var dict = JsonConvert.DeserializeObject <Dictionary <string, string> >(restobj.Data); geometries[i] = Rhino.Runtime.CommonObject.FromJSON(dict) as GeometryBase; } contextualParameter.AssignContextualData(geometries); break; } } break; } continue; } inputGroup.Param.VolatileData.Clear(); inputGroup.Param.ExpireSolution(false); // mark param as expired but don't recompute just yet! if (inputGroup.Param is Param_Point) { foreach (KeyValuePair <string, List <ResthopperObject> > entree in tree) { GH_Path path = new GH_Path(GhPath.FromString(entree.Key)); for (int i = 0; i < entree.Value.Count; i++) { ResthopperObject restobj = entree.Value[i]; Rhino.Geometry.Point3d rPt = JsonConvert.DeserializeObject <Rhino.Geometry.Point3d>(restobj.Data); GH_Point data = new GH_Point(rPt); inputGroup.Param.AddVolatileData(path, i, data); } } continue; } if (inputGroup.Param is Param_Vector) { foreach (KeyValuePair <string, List <ResthopperObject> > entree in tree) { GH_Path path = new GH_Path(GhPath.FromString(entree.Key)); for (int i = 0; i < entree.Value.Count; i++) { ResthopperObject restobj = entree.Value[i]; Rhino.Geometry.Vector3d rhVector = JsonConvert.DeserializeObject <Rhino.Geometry.Vector3d>(restobj.Data); GH_Vector data = new GH_Vector(rhVector); inputGroup.Param.AddVolatileData(path, i, data); } } continue; } if (inputGroup.Param is Param_Integer) { foreach (KeyValuePair <string, List <ResthopperObject> > entree in tree) { GH_Path path = new GH_Path(GhPath.FromString(entree.Key)); for (int i = 0; i < entree.Value.Count; i++) { ResthopperObject restobj = entree.Value[i]; int rhinoInt = JsonConvert.DeserializeObject <int>(restobj.Data); GH_Integer data = new GH_Integer(rhinoInt); inputGroup.Param.AddVolatileData(path, i, data); } } continue; } if (inputGroup.Param is Param_Number) { foreach (KeyValuePair <string, List <ResthopperObject> > entree in tree) { GH_Path path = new GH_Path(GhPath.FromString(entree.Key)); for (int i = 0; i < entree.Value.Count; i++) { ResthopperObject restobj = entree.Value[i]; double rhNumber = JsonConvert.DeserializeObject <double>(restobj.Data); GH_Number data = new GH_Number(rhNumber); inputGroup.Param.AddVolatileData(path, i, data); } } continue; } if (inputGroup.Param is Param_String) { foreach (KeyValuePair <string, List <ResthopperObject> > entree in tree) { GH_Path path = new GH_Path(GhPath.FromString(entree.Key)); for (int i = 0; i < entree.Value.Count; i++) { ResthopperObject restobj = entree.Value[i]; string rhString = restobj.Data; GH_String data = new GH_String(rhString); inputGroup.Param.AddVolatileData(path, i, data); } } continue; } if (inputGroup.Param is Param_Line) { foreach (KeyValuePair <string, List <ResthopperObject> > entree in tree) { GH_Path path = new GH_Path(GhPath.FromString(entree.Key)); for (int i = 0; i < entree.Value.Count; i++) { ResthopperObject restobj = entree.Value[i]; Rhino.Geometry.Line rhLine = JsonConvert.DeserializeObject <Rhino.Geometry.Line>(restobj.Data); GH_Line data = new GH_Line(rhLine); inputGroup.Param.AddVolatileData(path, i, data); } } continue; } if (inputGroup.Param is Param_Curve) { foreach (KeyValuePair <string, List <ResthopperObject> > entree in tree) { GH_Path path = new GH_Path(GhPath.FromString(entree.Key)); for (int i = 0; i < entree.Value.Count; i++) { ResthopperObject restobj = entree.Value[i]; GH_Curve ghCurve; try { Rhino.Geometry.Polyline data = JsonConvert.DeserializeObject <Rhino.Geometry.Polyline>(restobj.Data); Rhino.Geometry.Curve c = new Rhino.Geometry.PolylineCurve(data); ghCurve = new GH_Curve(c); } catch { var dict = JsonConvert.DeserializeObject <Dictionary <string, string> >(restobj.Data); var c = (Rhino.Geometry.Curve)Rhino.Runtime.CommonObject.FromJSON(dict); ghCurve = new GH_Curve(c); } inputGroup.Param.AddVolatileData(path, i, ghCurve); } } continue; } if (inputGroup.Param is Param_Circle) { foreach (KeyValuePair <string, List <ResthopperObject> > entree in tree) { GH_Path path = new GH_Path(GhPath.FromString(entree.Key)); for (int i = 0; i < entree.Value.Count; i++) { ResthopperObject restobj = entree.Value[i]; Rhino.Geometry.Circle rhCircle = JsonConvert.DeserializeObject <Rhino.Geometry.Circle>(restobj.Data); GH_Circle data = new GH_Circle(rhCircle); inputGroup.Param.AddVolatileData(path, i, data); } } continue; } if (inputGroup.Param is Param_Plane) { foreach (KeyValuePair <string, List <ResthopperObject> > entree in tree) { GH_Path path = new GH_Path(GhPath.FromString(entree.Key)); for (int i = 0; i < entree.Value.Count; i++) { ResthopperObject restobj = entree.Value[i]; Rhino.Geometry.Plane rhPlane = JsonConvert.DeserializeObject <Rhino.Geometry.Plane>(restobj.Data); GH_Plane data = new GH_Plane(rhPlane); inputGroup.Param.AddVolatileData(path, i, data); } } continue; } if (inputGroup.Param is Param_Rectangle) { foreach (KeyValuePair <string, List <ResthopperObject> > entree in tree) { GH_Path path = new GH_Path(GhPath.FromString(entree.Key)); for (int i = 0; i < entree.Value.Count; i++) { ResthopperObject restobj = entree.Value[i]; Rhino.Geometry.Rectangle3d rhRectangle = JsonConvert.DeserializeObject <Rhino.Geometry.Rectangle3d>(restobj.Data); GH_Rectangle data = new GH_Rectangle(rhRectangle); inputGroup.Param.AddVolatileData(path, i, data); } } continue; } if (inputGroup.Param is Param_Box) { foreach (KeyValuePair <string, List <ResthopperObject> > entree in tree) { GH_Path path = new GH_Path(GhPath.FromString(entree.Key)); for (int i = 0; i < entree.Value.Count; i++) { ResthopperObject restobj = entree.Value[i]; Rhino.Geometry.Box rhBox = JsonConvert.DeserializeObject <Rhino.Geometry.Box>(restobj.Data); GH_Box data = new GH_Box(rhBox); inputGroup.Param.AddVolatileData(path, i, data); } } continue; } if (inputGroup.Param is Param_Surface) { foreach (KeyValuePair <string, List <ResthopperObject> > entree in tree) { GH_Path path = new GH_Path(GhPath.FromString(entree.Key)); for (int i = 0; i < entree.Value.Count; i++) { ResthopperObject restobj = entree.Value[i]; Rhino.Geometry.Surface rhSurface = JsonConvert.DeserializeObject <Rhino.Geometry.Surface>(restobj.Data); GH_Surface data = new GH_Surface(rhSurface); inputGroup.Param.AddVolatileData(path, i, data); } } continue; } if (inputGroup.Param is Param_Brep) { foreach (KeyValuePair <string, List <ResthopperObject> > entree in tree) { GH_Path path = new GH_Path(GhPath.FromString(entree.Key)); for (int i = 0; i < entree.Value.Count; i++) { ResthopperObject restobj = entree.Value[i]; Rhino.Geometry.Brep rhBrep = JsonConvert.DeserializeObject <Rhino.Geometry.Brep>(restobj.Data); GH_Brep data = new GH_Brep(rhBrep); inputGroup.Param.AddVolatileData(path, i, data); } } continue; } if (inputGroup.Param is Param_Mesh) { foreach (KeyValuePair <string, List <ResthopperObject> > entree in tree) { GH_Path path = new GH_Path(GhPath.FromString(entree.Key)); for (int i = 0; i < entree.Value.Count; i++) { ResthopperObject restobj = entree.Value[i]; Rhino.Geometry.Mesh rhMesh = JsonConvert.DeserializeObject <Rhino.Geometry.Mesh>(restobj.Data); GH_Mesh data = new GH_Mesh(rhMesh); inputGroup.Param.AddVolatileData(path, i, data); } } continue; } if (inputGroup.Param is GH_NumberSlider) { foreach (KeyValuePair <string, List <ResthopperObject> > entree in tree) { GH_Path path = new GH_Path(GhPath.FromString(entree.Key)); for (int i = 0; i < entree.Value.Count; i++) { ResthopperObject restobj = entree.Value[i]; double rhNumber = JsonConvert.DeserializeObject <double>(restobj.Data); GH_Number data = new GH_Number(rhNumber); inputGroup.Param.AddVolatileData(path, i, data); } } continue; } if (inputGroup.Param is Param_Boolean || inputGroup.Param is GH_BooleanToggle) { foreach (KeyValuePair <string, List <ResthopperObject> > entree in tree) { GH_Path path = new GH_Path(GhPath.FromString(entree.Key)); for (int i = 0; i < entree.Value.Count; i++) { ResthopperObject restobj = entree.Value[i]; bool boolean = JsonConvert.DeserializeObject <bool>(restobj.Data); GH_Boolean data = new GH_Boolean(boolean); inputGroup.Param.AddVolatileData(path, i, data); } } continue; } if (inputGroup.Param is GH_Panel) { foreach (KeyValuePair <string, List <ResthopperObject> > entree in tree) { GH_Path path = new GH_Path(GhPath.FromString(entree.Key)); for (int i = 0; i < entree.Value.Count; i++) { ResthopperObject restobj = entree.Value[i]; string rhString = JsonConvert.DeserializeObject <string>(restobj.Data); GH_String data = new GH_String(rhString); inputGroup.Param.AddVolatileData(path, i, data); } } continue; } } }
public static Response Grasshopper(NancyContext ctx) { // load grasshopper file var archive = new GH_Archive(); // TODO: stream to string var body = ctx.Request.Body.ToString(); string json = string.Empty; using (var reader = new StreamReader(ctx.Request.Body)) { json = reader.ReadToEnd(); } //GrasshopperInput input = Newtonsoft.Json.JsonConvert.DeserializeObject<GrasshopperInput>(json); //JsonSerializerSettings settings = new JsonSerializerSettings(); //settings.ContractResolver = new DictionaryAsArrayResolver(); Schema input = JsonConvert.DeserializeObject <Schema>(json); string grasshopperXml = string.Empty; if (input.Algo != null) { // If request contains markup byte[] byteArray = Convert.FromBase64String(input.Algo); grasshopperXml = System.Text.Encoding.UTF8.GetString(byteArray); } else { // If request contains pointer string pointer = input.Pointer; grasshopperXml = GetGhxFromPointer(pointer); } if (!archive.Deserialize_Xml(grasshopperXml)) { throw new Exception(); } var definition = new GH_Document(); if (!archive.ExtractObject(definition, "Definition")) { throw new Exception(); } // Set input params foreach (var obj in definition.Objects) { var group = obj as GH_Group; if (group == null) { continue; } if (group.NickName.Contains("RH_IN")) { // It is a RestHopper input group! GHTypeCodes code = (GHTypeCodes)Int32.Parse(group.NickName.Split(':')[1]); var param = group.Objects()[0]; //GH_Param<IGH_Goo> goo = obj as GH_Param<IGH_Goo>; // SetData foreach (Resthopper.IO.DataTree <ResthopperObject> tree in input.Values) { string paramname = tree.ParamName; if (group.NickName == paramname) { switch (code) { case GHTypeCodes.Boolean: //PopulateParam<GH_Boolean>(goo, tree); Param_Boolean boolParam = param as Param_Boolean; foreach (KeyValuePair <string, List <ResthopperObject> > entree in tree) { GH_Path path = new GH_Path(GhPath.FromString(entree.Key)); List <GH_Boolean> objectList = new List <GH_Boolean>(); for (int i = 0; i < entree.Value.Count; i++) { ResthopperObject restobj = entree.Value[i]; bool boolean = JsonConvert.DeserializeObject <bool>(restobj.Data); GH_Boolean data = new GH_Boolean(boolean); boolParam.AddVolatileData(path, i, data); } } break; case GHTypeCodes.Point: //PopulateParam<GH_Point>(goo, tree); Param_Point ptParam = param as Param_Point; foreach (KeyValuePair <string, List <ResthopperObject> > entree in tree) { GH_Path path = new GH_Path(GhPath.FromString(entree.Key)); List <GH_Point> objectList = new List <GH_Point>(); for (int i = 0; i < entree.Value.Count; i++) { ResthopperObject restobj = entree.Value[i]; Rhino.Geometry.Point3d rPt = JsonConvert.DeserializeObject <Rhino.Geometry.Point3d>(restobj.Data); GH_Point data = new GH_Point(rPt); ptParam.AddVolatileData(path, i, data); } } break; case GHTypeCodes.Vector: //PopulateParam<GH_Vector>(goo, tree); Param_Vector vectorParam = param as Param_Vector; foreach (KeyValuePair <string, List <ResthopperObject> > entree in tree) { GH_Path path = new GH_Path(GhPath.FromString(entree.Key)); List <GH_Vector> objectList = new List <GH_Vector>(); for (int i = 0; i < entree.Value.Count; i++) { ResthopperObject restobj = entree.Value[i]; Rhino.Geometry.Vector3d rhVector = JsonConvert.DeserializeObject <Rhino.Geometry.Vector3d>(restobj.Data); GH_Vector data = new GH_Vector(rhVector); vectorParam.AddVolatileData(path, i, data); } } break; case GHTypeCodes.Integer: //PopulateParam<GH_Integer>(goo, tree); Param_Integer integerParam = param as Param_Integer; foreach (KeyValuePair <string, List <ResthopperObject> > entree in tree) { GH_Path path = new GH_Path(GhPath.FromString(entree.Key)); List <GH_Integer> objectList = new List <GH_Integer>(); for (int i = 0; i < entree.Value.Count; i++) { ResthopperObject restobj = entree.Value[i]; int rhinoInt = JsonConvert.DeserializeObject <int>(restobj.Data); GH_Integer data = new GH_Integer(rhinoInt); integerParam.AddVolatileData(path, i, data); } } break; case GHTypeCodes.Number: //PopulateParam<GH_Number>(goo, tree); Param_Number numberParam = param as Param_Number; foreach (KeyValuePair <string, List <ResthopperObject> > entree in tree) { GH_Path path = new GH_Path(GhPath.FromString(entree.Key)); List <GH_Number> objectList = new List <GH_Number>(); for (int i = 0; i < entree.Value.Count; i++) { ResthopperObject restobj = entree.Value[i]; double rhNumber = JsonConvert.DeserializeObject <double>(restobj.Data); GH_Number data = new GH_Number(rhNumber); numberParam.AddVolatileData(path, i, data); } } break; case GHTypeCodes.Text: //PopulateParam<GH_String>(goo, tree); Param_String stringParam = param as Param_String; foreach (KeyValuePair <string, List <ResthopperObject> > entree in tree) { GH_Path path = new GH_Path(GhPath.FromString(entree.Key)); List <GH_String> objectList = new List <GH_String>(); for (int i = 0; i < entree.Value.Count; i++) { ResthopperObject restobj = entree.Value[i]; string rhString = JsonConvert.DeserializeObject <string>(restobj.Data); GH_String data = new GH_String(rhString); stringParam.AddVolatileData(path, i, data); } } break; case GHTypeCodes.Line: //PopulateParam<GH_Line>(goo, tree); Param_Line lineParam = param as Param_Line; foreach (KeyValuePair <string, List <ResthopperObject> > entree in tree) { GH_Path path = new GH_Path(GhPath.FromString(entree.Key)); List <GH_Line> objectList = new List <GH_Line>(); for (int i = 0; i < entree.Value.Count; i++) { ResthopperObject restobj = entree.Value[i]; Rhino.Geometry.Line rhLine = JsonConvert.DeserializeObject <Rhino.Geometry.Line>(restobj.Data); GH_Line data = new GH_Line(rhLine); lineParam.AddVolatileData(path, i, data); } } break; case GHTypeCodes.Curve: //PopulateParam<GH_Curve>(goo, tree); Param_Curve curveParam = param as Param_Curve; foreach (KeyValuePair <string, List <ResthopperObject> > entree in tree) { GH_Path path = new GH_Path(GhPath.FromString(entree.Key)); List <GH_Curve> objectList = new List <GH_Curve>(); for (int i = 0; i < entree.Value.Count; i++) { ResthopperObject restobj = entree.Value[i]; GH_Curve ghCurve; try { Rhino.Geometry.Polyline data = JsonConvert.DeserializeObject <Rhino.Geometry.Polyline>(restobj.Data); Rhino.Geometry.Curve c = new Rhino.Geometry.PolylineCurve(data); ghCurve = new GH_Curve(c); } catch { Rhino.Geometry.NurbsCurve data = JsonConvert.DeserializeObject <Rhino.Geometry.NurbsCurve>(restobj.Data); Rhino.Geometry.Curve c = new Rhino.Geometry.NurbsCurve(data); ghCurve = new GH_Curve(c); } curveParam.AddVolatileData(path, i, ghCurve); } } break; case GHTypeCodes.Circle: //PopulateParam<GH_Circle>(goo, tree); Param_Circle circleParam = param as Param_Circle; foreach (KeyValuePair <string, List <ResthopperObject> > entree in tree) { GH_Path path = new GH_Path(GhPath.FromString(entree.Key)); List <GH_Circle> objectList = new List <GH_Circle>(); for (int i = 0; i < entree.Value.Count; i++) { ResthopperObject restobj = entree.Value[i]; Rhino.Geometry.Circle rhCircle = JsonConvert.DeserializeObject <Rhino.Geometry.Circle>(restobj.Data); GH_Circle data = new GH_Circle(rhCircle); circleParam.AddVolatileData(path, i, data); } } break; case GHTypeCodes.PLane: //PopulateParam<GH_Plane>(goo, tree); Param_Plane planeParam = param as Param_Plane; foreach (KeyValuePair <string, List <ResthopperObject> > entree in tree) { GH_Path path = new GH_Path(GhPath.FromString(entree.Key)); List <GH_Plane> objectList = new List <GH_Plane>(); for (int i = 0; i < entree.Value.Count; i++) { ResthopperObject restobj = entree.Value[i]; Rhino.Geometry.Plane rhPlane = JsonConvert.DeserializeObject <Rhino.Geometry.Plane>(restobj.Data); GH_Plane data = new GH_Plane(rhPlane); planeParam.AddVolatileData(path, i, data); } } break; case GHTypeCodes.Rectangle: //PopulateParam<GH_Rectangle>(goo, tree); Param_Rectangle rectangleParam = param as Param_Rectangle; foreach (KeyValuePair <string, List <ResthopperObject> > entree in tree) { GH_Path path = new GH_Path(GhPath.FromString(entree.Key)); List <GH_Rectangle> objectList = new List <GH_Rectangle>(); for (int i = 0; i < entree.Value.Count; i++) { ResthopperObject restobj = entree.Value[i]; Rhino.Geometry.Rectangle3d rhRectangle = JsonConvert.DeserializeObject <Rhino.Geometry.Rectangle3d>(restobj.Data); GH_Rectangle data = new GH_Rectangle(rhRectangle); rectangleParam.AddVolatileData(path, i, data); } } break; case GHTypeCodes.Box: //PopulateParam<GH_Box>(goo, tree); Param_Box boxParam = param as Param_Box; foreach (KeyValuePair <string, List <ResthopperObject> > entree in tree) { GH_Path path = new GH_Path(GhPath.FromString(entree.Key)); List <GH_Box> objectList = new List <GH_Box>(); for (int i = 0; i < entree.Value.Count; i++) { ResthopperObject restobj = entree.Value[i]; Rhino.Geometry.Box rhBox = JsonConvert.DeserializeObject <Rhino.Geometry.Box>(restobj.Data); GH_Box data = new GH_Box(rhBox); boxParam.AddVolatileData(path, i, data); } } break; case GHTypeCodes.Surface: //PopulateParam<GH_Surface>(goo, tree); Param_Surface surfaceParam = param as Param_Surface; foreach (KeyValuePair <string, List <ResthopperObject> > entree in tree) { GH_Path path = new GH_Path(GhPath.FromString(entree.Key)); List <GH_Surface> objectList = new List <GH_Surface>(); for (int i = 0; i < entree.Value.Count; i++) { ResthopperObject restobj = entree.Value[i]; Rhino.Geometry.Surface rhSurface = JsonConvert.DeserializeObject <Rhino.Geometry.Surface>(restobj.Data); GH_Surface data = new GH_Surface(rhSurface); surfaceParam.AddVolatileData(path, i, data); } } break; case GHTypeCodes.Brep: //PopulateParam<GH_Brep>(goo, tree); Param_Brep brepParam = param as Param_Brep; foreach (KeyValuePair <string, List <ResthopperObject> > entree in tree) { GH_Path path = new GH_Path(GhPath.FromString(entree.Key)); List <GH_Brep> objectList = new List <GH_Brep>(); for (int i = 0; i < entree.Value.Count; i++) { ResthopperObject restobj = entree.Value[i]; Rhino.Geometry.Brep rhBrep = JsonConvert.DeserializeObject <Rhino.Geometry.Brep>(restobj.Data); GH_Brep data = new GH_Brep(rhBrep); brepParam.AddVolatileData(path, i, data); } } break; case GHTypeCodes.Mesh: //PopulateParam<GH_Mesh>(goo, tree); Param_Mesh meshParam = param as Param_Mesh; foreach (KeyValuePair <string, List <ResthopperObject> > entree in tree) { GH_Path path = new GH_Path(GhPath.FromString(entree.Key)); List <GH_Mesh> objectList = new List <GH_Mesh>(); for (int i = 0; i < entree.Value.Count; i++) { ResthopperObject restobj = entree.Value[i]; Rhino.Geometry.Mesh rhMesh = JsonConvert.DeserializeObject <Rhino.Geometry.Mesh>(restobj.Data); GH_Mesh data = new GH_Mesh(rhMesh); meshParam.AddVolatileData(path, i, data); } } break; case GHTypeCodes.Slider: //PopulateParam<GH_Number>(goo, tree); GH_NumberSlider sliderParam = param as GH_NumberSlider; foreach (KeyValuePair <string, List <ResthopperObject> > entree in tree) { GH_Path path = new GH_Path(GhPath.FromString(entree.Key)); List <GH_Number> objectList = new List <GH_Number>(); for (int i = 0; i < entree.Value.Count; i++) { ResthopperObject restobj = entree.Value[i]; double rhNumber = JsonConvert.DeserializeObject <double>(restobj.Data); GH_Number data = new GH_Number(rhNumber); sliderParam.AddVolatileData(path, i, data); } } break; case GHTypeCodes.BooleanToggle: //PopulateParam<GH_Boolean>(goo, tree); GH_BooleanToggle toggleParam = param as GH_BooleanToggle; foreach (KeyValuePair <string, List <ResthopperObject> > entree in tree) { GH_Path path = new GH_Path(GhPath.FromString(entree.Key)); List <GH_Boolean> objectList = new List <GH_Boolean>(); for (int i = 0; i < entree.Value.Count; i++) { ResthopperObject restobj = entree.Value[i]; bool rhBoolean = JsonConvert.DeserializeObject <bool>(restobj.Data); GH_Boolean data = new GH_Boolean(rhBoolean); toggleParam.AddVolatileData(path, i, data); } } break; case GHTypeCodes.Panel: //PopulateParam<GH_String>(goo, tree); GH_Panel panelParam = param as GH_Panel; foreach (KeyValuePair <string, List <ResthopperObject> > entree in tree) { GH_Path path = new GH_Path(GhPath.FromString(entree.Key)); List <GH_Panel> objectList = new List <GH_Panel>(); for (int i = 0; i < entree.Value.Count; i++) { ResthopperObject restobj = entree.Value[i]; string rhString = JsonConvert.DeserializeObject <string>(restobj.Data); GH_String data = new GH_String(rhString); panelParam.AddVolatileData(path, i, data); } } break; } } } } } Schema OutputSchema = new Schema(); OutputSchema.Algo = Utils.Base64Encode(string.Empty); // Parse output params foreach (var obj in definition.Objects) { var group = obj as GH_Group; if (group == null) { continue; } if (group.NickName.Contains("RH_OUT")) { // It is a RestHopper output group! GHTypeCodes code = (GHTypeCodes)Int32.Parse(group.NickName.Split(':')[1]); var param = group.Objects()[0] as IGH_Param; if (param == null) { continue; } try { param.CollectData(); param.ComputeData(); } catch (Exception) { param.Phase = GH_SolutionPhase.Failed; // TODO: throw something better throw; } // Get data Resthopper.IO.DataTree <ResthopperObject> OutputTree = new Resthopper.IO.DataTree <ResthopperObject>(); OutputTree.ParamName = group.NickName; var volatileData = param.VolatileData; for (int p = 0; p < volatileData.PathCount; p++) { List <ResthopperObject> ResthopperObjectList = new List <ResthopperObject>(); foreach (var goo in volatileData.get_Branch(p)) { if (goo == null) { continue; } else if (goo.GetType() == typeof(GH_Boolean)) { GH_Boolean ghValue = goo as GH_Boolean; bool rhValue = ghValue.Value; ResthopperObjectList.Add(GetResthopperObject <bool>(rhValue)); } else if (goo.GetType() == typeof(GH_Point)) { GH_Point ghValue = goo as GH_Point; Point3d rhValue = ghValue.Value; ResthopperObjectList.Add(GetResthopperObject <Point3d>(rhValue)); } else if (goo.GetType() == typeof(GH_Vector)) { GH_Vector ghValue = goo as GH_Vector; Vector3d rhValue = ghValue.Value; ResthopperObjectList.Add(GetResthopperObject <Vector3d>(rhValue)); } else if (goo.GetType() == typeof(GH_Integer)) { GH_Integer ghValue = goo as GH_Integer; int rhValue = ghValue.Value; ResthopperObjectList.Add(GetResthopperObject <int>(rhValue)); } else if (goo.GetType() == typeof(GH_Number)) { GH_Number ghValue = goo as GH_Number; double rhValue = ghValue.Value; ResthopperObjectList.Add(GetResthopperObject <double>(rhValue)); } else if (goo.GetType() == typeof(GH_String)) { GH_String ghValue = goo as GH_String; string rhValue = ghValue.Value; ResthopperObjectList.Add(GetResthopperObject <string>(rhValue)); } else if (goo.GetType() == typeof(GH_Line)) { GH_Line ghValue = goo as GH_Line; Line rhValue = ghValue.Value; ResthopperObjectList.Add(GetResthopperObject <Line>(rhValue)); } else if (goo.GetType() == typeof(GH_Curve)) { GH_Curve ghValue = goo as GH_Curve; Curve rhValue = ghValue.Value; ResthopperObjectList.Add(GetResthopperObject <Curve>(rhValue)); } else if (goo.GetType() == typeof(GH_Circle)) { GH_Circle ghValue = goo as GH_Circle; Circle rhValue = ghValue.Value; ResthopperObjectList.Add(GetResthopperObject <Circle>(rhValue)); } else if (goo.GetType() == typeof(GH_Plane)) { GH_Plane ghValue = goo as GH_Plane; Plane rhValue = ghValue.Value; ResthopperObjectList.Add(GetResthopperObject <Plane>(rhValue)); } else if (goo.GetType() == typeof(GH_Rectangle)) { GH_Rectangle ghValue = goo as GH_Rectangle; Rectangle3d rhValue = ghValue.Value; ResthopperObjectList.Add(GetResthopperObject <Rectangle3d>(rhValue)); } else if (goo.GetType() == typeof(GH_Box)) { GH_Box ghValue = goo as GH_Box; Box rhValue = ghValue.Value; ResthopperObjectList.Add(GetResthopperObject <Box>(rhValue)); } else if (goo.GetType() == typeof(GH_Surface)) { GH_Surface ghValue = goo as GH_Surface; Brep rhValue = ghValue.Value; ResthopperObjectList.Add(GetResthopperObject <Brep>(rhValue)); } else if (goo.GetType() == typeof(GH_Brep)) { GH_Brep ghValue = goo as GH_Brep; Brep rhValue = ghValue.Value; ResthopperObjectList.Add(GetResthopperObject <Brep>(rhValue)); } else if (goo.GetType() == typeof(GH_Mesh)) { GH_Mesh ghValue = goo as GH_Mesh; Mesh rhValue = ghValue.Value; ResthopperObjectList.Add(GetResthopperObject <Mesh>(rhValue)); } } GhPath path = new GhPath(new int[] { p }); OutputTree.Add(path.ToString(), ResthopperObjectList); } OutputSchema.Values.Add(OutputTree); } } if (OutputSchema.Values.Count < 1) { throw new System.Exceptions.PayAttentionException("Looks like you've missed something..."); // TODO } string returnJson = JsonConvert.SerializeObject(OutputSchema); return(returnJson); }
/// <summary> /// This is the method that actually does the work. /// </summary> /// <param name="DA">The DA object can be used to retrieve data from input parameters and /// to store data in output parameters.</param> protected override void SolveInstance(IGH_DataAccess DA) { object obj = null; DA.GetData(0, ref obj); // Remarks: // 1) why lines, rectangles or *any* rhinocommon object can't have user dicts? // 2) @David: i hate grasshopper typecasting and the hassle below // (why isn't there a GH_DefaultType, where i can access the .Value regardless of type...?) GeometryBase myObj = null; GH_Mesh mesh = obj as GH_Mesh; if (mesh != null) { myObj = mesh.Value; } GH_Brep brep = obj as GH_Brep; if (brep != null) { myObj = brep.Value; } GH_Surface srf = obj as GH_Surface; if (srf != null) { myObj = srf.Value; } GH_Box box = obj as GH_Box; if (box != null) { myObj = box.Value.ToBrep(); } GH_Curve crv = obj as GH_Curve; if (crv != null) { myObj = crv.Value; } GH_Line line = obj as GH_Line; if (line != null) { myObj = line.Value.ToNurbsCurve(); } GH_Rectangle rect = obj as GH_Rectangle; if (rect != null) { myObj = rect.Value.ToNurbsCurve(); } GH_Circle circle = obj as GH_Circle; if (circle != null) { myObj = circle.Value.ToNurbsCurve(); } GH_Arc arc = obj as GH_Arc; if (arc != null) { myObj = arc.Value.ToNurbsCurve(); } GH_Point pt = obj as GH_Point; if (pt != null) { myObj = new Point(pt.Value); } if (myObj == null) { // get the object out DA.SetData(0, obj); this.AddRuntimeMessage(GH_RuntimeMessageLevel.Warning, "Failed to set user dictionary to object. Probably an unsupported type."); return; } myObj.UserDictionary.Clear(); object value = null; DA.GetData(1, ref value); GH_ObjectWrapper temp = value as GH_ObjectWrapper; if (temp == null) { DA.SetData(0, obj); this.AddRuntimeMessage(GH_RuntimeMessageLevel.Warning, "Could not cast object to GH_ObjectWrapper."); return; } ArchivableDictionary dict = ((GH_ObjectWrapper)value).Value as ArchivableDictionary; if (dict == null) { DA.SetData(0, obj); this.AddRuntimeMessage(GH_RuntimeMessageLevel.Warning, "Could not cast object to Dictionary."); return; } myObj.UserDictionary.ReplaceContentsWith(dict); DA.SetData(0, myObj); }
/// <summary> /// Determines object type and calls the appropriate conversion call. /// </summary> /// <param name="o">Object to convert.</param> /// <param name="getEncoded">If set to true, will return a base64 encoded value of more complex objects (ie, breps).</param> /// <returns></returns> private static SpeckleObject fromGhRhObject(object o, bool getEncoded = false, bool getAbstract = true) { GH_Interval int1d = o as GH_Interval; if (int1d != null) { return(GhRhConveter.fromInterval(int1d.Value)); } if (o is Interval) { return(GhRhConveter.fromInterval((Interval)o)); } GH_Interval2D int2d = o as GH_Interval2D; if (int2d != null) { return(GhRhConveter.fromInterval2d(int2d.Value)); } if (o is UVInterval) { return(GhRhConveter.fromInterval2d((UVInterval)o)); } // basic stuff GH_Number num = o as GH_Number; if (num != null) { return(SpeckleConverter.fromNumber(num.Value)); } if (o is double || o is int) { return(SpeckleConverter.fromNumber((double)o)); } GH_Boolean bul = o as GH_Boolean; if (bul != null) { return(SpeckleConverter.fromBoolean(bul.Value)); } if (o is Boolean) { return(GhRhConveter.fromBoolean((bool)o)); } GH_String str = o as GH_String; if (str != null) { return(SpeckleConverter.fromString(str.Value)); } if (o is string) { return(SpeckleConverter.fromString((string)o)); } // simple geometry GH_Point point = o as GH_Point; if (point != null) { return(GhRhConveter.fromPoint(point.Value)); } if (o is Point3d) { return(GhRhConveter.fromPoint((Point3d)o)); } // added because when we assign user data to points they get converted to points. // the above comment does makes sense. check the sdk. if (o is Rhino.Geometry.Point) { return(GhRhConveter.fromPoint(((Rhino.Geometry.Point)o).Location)); } GH_Vector vector = o as GH_Vector; if (vector != null) { return(GhRhConveter.fromVector(vector.Value)); } if (o is Vector3d) { return(GhRhConveter.fromVector((Vector3d)o)); } GH_Plane plane = o as GH_Plane; if (plane != null) { return(GhRhConveter.fromPlane(plane.Value)); } if (o is Plane) { return(GhRhConveter.fromPlane((Plane)o)); } GH_Line line = o as GH_Line; if (line != null) { return(GhRhConveter.fromLine(line.Value)); } if (o is Line) { return(GhRhConveter.fromLine((Line)o)); } GH_Arc arc = o as GH_Arc; if (arc != null) { return(GhRhConveter.fromArc(arc.Value)); } if (o is Arc) { return(GhRhConveter.fromArc((Arc)o)); } GH_Circle circle = o as GH_Circle; if (circle != null) { return(GhRhConveter.fromCircle(circle.Value)); } if (o is Circle) { return(GhRhConveter.fromCircle((Circle)o)); } GH_Rectangle rectangle = o as GH_Rectangle; if (rectangle != null) { return(GhRhConveter.fromRectangle(rectangle.Value)); } if (o is Rectangle3d) { return(GhRhConveter.fromRectangle((Rectangle3d)o)); } GH_Box box = o as GH_Box; if (box != null) { return(GhRhConveter.fromBox(box.Value)); } if (o is Box) { return(GhRhConveter.fromBox((Box)o)); } // getting complex GH_Curve curve = o as GH_Curve; if (curve != null) { Polyline poly; if (curve.Value.TryGetPolyline(out poly)) { return(GhRhConveter.fromPolyline(poly)); } return(GhRhConveter.fromCurve(curve.Value, getEncoded, getAbstract)); } if (o is Polyline) { return(GhRhConveter.fromPolyline((Polyline)o)); } if (o is Curve) { return(GhRhConveter.fromCurve((Curve)o, getEncoded, getAbstract)); } GH_Surface surface = o as GH_Surface; if (surface != null) { return(GhRhConveter.fromBrep(surface.Value, getEncoded, getAbstract)); } GH_Brep brep = o as GH_Brep; if (brep != null) { return(GhRhConveter.fromBrep(brep.Value, getEncoded, getAbstract)); } if (o is Brep) { return(GhRhConveter.fromBrep((Brep)o, getEncoded, getAbstract)); } GH_Mesh mesh = o as GH_Mesh; if (mesh != null) { return(GhRhConveter.fromMesh(mesh.Value)); } if (o is Mesh) { return(GhRhConveter.fromMesh((Mesh)o)); } return(new SpeckleObject() { hash = "404", value = "Type not supported", type = "404" }); }
/*******************************************/ public static bool CastToGoo(object value, ref GH_Rectangle target) { return(GH_Convert.ToGHRectangle(value, GH_Conversion.Both, ref target)); }