public void TestDuplicateNode() { // create new node with some properties GsaNode node = new GsaNode(new Point3d(-3.3, 0, 1.5)); node.Colour = System.Drawing.Color.Red; node.LocalAxis = Plane.WorldYZ; node.ID = 3; node.Node.Name = "Mariam"; // duplicate node GsaNode duplicate = node.Duplicate(); // check that original and duplicate are the same Assert.AreEqual(node.Node.Position.X, duplicate.Node.Position.X); Assert.AreEqual(node.Node.Position.Y, duplicate.Node.Position.Y); Assert.AreEqual(node.Node.Position.Z, duplicate.Node.Position.Z); Assert.AreEqual(duplicate.LocalAxis.OriginX, node.LocalAxis.OriginX); Assert.AreEqual(duplicate.LocalAxis.OriginY, node.LocalAxis.OriginY); Assert.AreEqual(duplicate.LocalAxis.OriginZ, node.LocalAxis.OriginZ); Assert.AreEqual(duplicate.LocalAxis.Normal.X, node.LocalAxis.Normal.X); Assert.AreEqual(duplicate.LocalAxis.Normal.Y, node.LocalAxis.Normal.Y); Assert.AreEqual(duplicate.LocalAxis.Normal.Z, node.LocalAxis.Normal.Z); Assert.AreEqual(node.ID, duplicate.ID); Assert.AreEqual(node.Colour, duplicate.Colour); Assert.AreEqual(node.Node.Name, duplicate.Node.Name); // make changes to original node node.Point = new Point3d(3.3, 1, -1.5); node.LocalAxis = Plane.Unset; node.Colour = System.Drawing.Color.Blue; node.ID = 2; node.Node.Name = "Kristjan"; // check that original and duplicate are not the same Assert.AreNotEqual(node.Node.Position.X, duplicate.Node.Position.X); Assert.AreNotEqual(node.Node.Position.Y, duplicate.Node.Position.Y); Assert.AreNotEqual(node.Node.Position.Z, duplicate.Node.Position.Z); Assert.AreNotEqual(duplicate.LocalAxis.OriginX, node.LocalAxis.OriginX); Assert.AreNotEqual(duplicate.LocalAxis.OriginY, node.LocalAxis.OriginY); Assert.AreNotEqual(duplicate.LocalAxis.OriginZ, node.LocalAxis.OriginZ); Assert.AreNotEqual(duplicate.LocalAxis.Normal.X, node.LocalAxis.Normal.X); Assert.AreNotEqual(duplicate.LocalAxis.Normal.Y, node.LocalAxis.Normal.Y); Assert.AreNotEqual(duplicate.LocalAxis.Normal.Z, node.LocalAxis.Normal.Z); Assert.AreNotEqual(node.ID, duplicate.ID); Assert.AreNotEqual(node.Colour, duplicate.Colour); Assert.AreNotEqual(node.Node.Name, duplicate.Node.Name); }
protected override void SolveInstance(IGH_DataAccess DA) { GH_Point ghpt = new GH_Point(); if (DA.GetData(0, ref ghpt)) { Point3d pt = new Point3d(); if (GH_Convert.ToPoint3d(ghpt, ref pt, GH_Conversion.Both)) { GH_Plane gH_Plane = new GH_Plane(); Plane localAxis = Plane.WorldXY; if (DA.GetData(1, ref gH_Plane)) { GH_Convert.ToPlane(gH_Plane, ref localAxis, GH_Conversion.Both); } GsaNode node = new GsaNode(pt); GsaBool6 bool6 = new GsaBool6(); if (DA.GetData(2, ref bool6)) { x = bool6.X; y = bool6.Y; z = bool6.Z; xx = bool6.XX; yy = bool6.YY; zz = bool6.ZZ; } GsaSpring spring = new GsaSpring(); if (DA.GetData(3, ref spring)) { node.Spring = spring; } node.LocalAxis = localAxis; node.Node.Restraint.X = x; node.Node.Restraint.Y = y; node.Node.Restraint.Z = z; node.Node.Restraint.XX = xx; node.Node.Restraint.YY = yy; node.Node.Restraint.ZZ = zz; DA.SetData(0, new GsaNodeGoo(node.Duplicate())); } } }
/// <summary> /// Method to import Nodes from a GSA model. /// Will output a list of GhSA GsaNodes. /// Filter nodes to import using nodeList input; /// "all" or empty string ("") will import all nodes /// </summary> /// <param name="model"></param> /// <param name="nodeList"></param> /// <returns></returns> public static List <GsaNode> GsaGetPoint(Model model, string nodeList) { // Create empty Gsa Node to work on: //Node node = new Node(); //GsaNode n = new GsaNode(); List <GsaNode> nodes = new List <GsaNode>(); // Create dictionary to read list of nodes: IReadOnlyDictionary <int, Node> nDict; nDict = model.Nodes(nodeList); // Loop through all nodes in Node dictionary and add points to Rhino point list for (int i = 0; i < nDict.Keys.Max(); i++) { if (nDict.TryGetValue(i + 1, out Node apinode)) //1-base numbering { var p = apinode.Position; GsaNode n = new GsaNode(new Point3d(p.X, p.Y, p.Z), i + 1) { Node = apinode }; if (apinode.SpringProperty > 0) { // to be implement. GsaAPI spring missing. // get spring property from model } nodes.Add(n.Duplicate()); } else { nodes.Add(null); } } //n.node.Dispose(); //node.Dispose(); return(nodes); }
protected override void SolveInstance(IGH_DataAccess DA) { #region GetData Models = null; Nodes = null; Elem1ds = null; Elem2ds = null; Elem3ds = null; Mem1ds = null; Mem2ds = null; Mem3ds = null; Loads = null; Sections = null; Prop2Ds = null; GridPlaneSurfaces = null; // Get Model input List <GH_ObjectWrapper> gh_types = new List <GH_ObjectWrapper>(); if (DA.GetDataList(0, gh_types)) { List <GsaModel> in_models = new List <GsaModel>(); for (int i = 0; i < gh_types.Count; i++) { GH_ObjectWrapper gh_typ = gh_types[i]; if (gh_typ == null) { Params.Owner.AddRuntimeMessage(GH_RuntimeMessageLevel.Error, "Input is null"); return; } if (gh_typ.Value is GsaModelGoo) { GsaModel in_model = new GsaModel(); gh_typ.CastTo(ref in_model); in_models.Add(in_model); } else { string type = gh_typ.Value.GetType().ToString(); type = type.Replace("GhSA.Parameters.", ""); type = type.Replace("Goo", ""); Params.Owner.AddRuntimeMessage(GH_RuntimeMessageLevel.Error, "Unable to convert GSA input parameter of type " + type + " to GsaModel"); return; } } Models = in_models; } // Get Section Property input gh_types = new List <GH_ObjectWrapper>(); if (DA.GetDataList(1, gh_types)) { List <GsaSection> in_sect = new List <GsaSection>(); List <GsaProp2d> in_prop = new List <GsaProp2d>(); for (int i = 0; i < gh_types.Count; i++) { GH_ObjectWrapper gh_typ = gh_types[i]; if (gh_typ.Value is GsaSectionGoo) { GsaSection gsasection = new GsaSection(); gh_typ.CastTo(ref gsasection); in_sect.Add(gsasection.Duplicate()); } else if (gh_typ.Value is GsaProp2dGoo) { GsaProp2d gsaprop = new GsaProp2d(); gh_typ.CastTo(ref gsaprop); in_prop.Add(gsaprop.Duplicate()); } else { string type = gh_typ.Value.GetType().ToString(); type = type.Replace("GhSA.Parameters.", ""); type = type.Replace("Goo", ""); Params.Owner.AddRuntimeMessage(GH_RuntimeMessageLevel.Error, "Unable to convert Prop input parameter of type " + type + " to GsaSection or GsaProp2d"); return; } } if (in_sect.Count > 0) { Sections = in_sect; } if (in_prop.Count > 0) { Prop2Ds = in_prop; } } // Get Geometry input gh_types = new List <GH_ObjectWrapper>(); List <GsaNode> in_nodes = new List <GsaNode>(); List <GsaElement1d> in_elem1ds = new List <GsaElement1d>(); List <GsaElement2d> in_elem2ds = new List <GsaElement2d>(); List <GsaElement3d> in_elem3ds = new List <GsaElement3d>(); List <GsaMember1d> in_mem1ds = new List <GsaMember1d>(); List <GsaMember2d> in_mem2ds = new List <GsaMember2d>(); List <GsaMember3d> in_mem3ds = new List <GsaMember3d>(); if (DA.GetDataList(2, gh_types)) { for (int i = 0; i < gh_types.Count; i++) { GH_ObjectWrapper gh_typ = new GH_ObjectWrapper(); gh_typ = gh_types[i]; if (gh_typ.Value is GsaNodeGoo) { GsaNode gsanode = new GsaNode(); gh_typ.CastTo(ref gsanode); in_nodes.Add(gsanode.Duplicate()); } else if (gh_typ.Value is GsaElement1dGoo) { GsaElement1d gsaelem1 = new GsaElement1d(); gh_typ.CastTo(ref gsaelem1); in_elem1ds.Add(gsaelem1.Duplicate()); } else if (gh_typ.Value is GsaElement2dGoo) { GsaElement2d gsaelem2 = new GsaElement2d(); gh_typ.CastTo(ref gsaelem2); in_elem2ds.Add(gsaelem2.Duplicate()); } else if (gh_typ.Value is GsaElement3dGoo) { GsaElement3d gsaelem3 = new GsaElement3d(); gh_typ.CastTo(ref gsaelem3); in_elem3ds.Add(gsaelem3.Duplicate()); } else if (gh_typ.Value is GsaMember1dGoo) { GsaMember1d gsamem1 = new GsaMember1d(); gh_typ.CastTo(ref gsamem1); in_mem1ds.Add(gsamem1.Duplicate()); } else if (gh_typ.Value is GsaMember2dGoo) { GsaMember2d gsamem2 = new GsaMember2d(); gh_typ.CastTo(ref gsamem2); in_mem2ds.Add(gsamem2.Duplicate()); } else if (gh_typ.Value is GsaMember3dGoo) { GsaMember3d gsamem3 = new GsaMember3d(); gh_typ.CastTo(ref gsamem3); in_mem3ds.Add(gsamem3.Duplicate()); } else { string type = gh_typ.Value.GetType().ToString(); type = type.Replace("GhSA.Parameters.", ""); type = type.Replace("Goo", ""); Params.Owner.AddRuntimeMessage(GH_RuntimeMessageLevel.Error, "Unable to convert Geometry input parameter of type " + type + System.Environment.NewLine + " to Node, Element1D, Element2D, Element3D, Member1D, Member2D or Member3D"); return; } } if (in_nodes.Count > 0) { Nodes = in_nodes; } if (in_elem1ds.Count > 0) { Elem1ds = in_elem1ds; } if (in_elem2ds.Count > 0) { Elem2ds = in_elem2ds; } if (in_elem3ds.Count > 0) { Elem3ds = in_elem3ds; } if (in_mem1ds.Count > 0) { Mem1ds = in_mem1ds; } if (in_mem2ds.Count > 0) { Mem2ds = in_mem2ds; } if (in_mem3ds.Count > 0) { Mem3ds = in_mem3ds; } } // Get Loads input gh_types = new List <GH_ObjectWrapper>(); if (DA.GetDataList(3, gh_types)) { List <GsaLoad> in_loads = new List <GsaLoad>(); List <GsaGridPlaneSurface> in_gps = new List <GsaGridPlaneSurface>(); for (int i = 0; i < gh_types.Count; i++) { GH_ObjectWrapper gh_typ = gh_types[i]; if (gh_typ.Value is GsaLoadGoo) { GsaLoad gsaload = null; gh_typ.CastTo(ref gsaload); in_loads.Add(gsaload.Duplicate()); } else if (gh_typ.Value is GsaGridPlaneSurfaceGoo) { GsaGridPlaneSurface gsaGPS = new GsaGridPlaneSurface(); gh_typ.CastTo(ref gsaGPS); in_gps.Add(gsaGPS.Duplicate()); } else { string type = gh_typ.Value.GetType().ToString(); type = type.Replace("GhSA.Parameters.", ""); type = type.Replace("Goo", ""); Params.Owner.AddRuntimeMessage(GH_RuntimeMessageLevel.Error, "Unable to convert Load input parameter of type " + type + " to Load or GridPlaneSurface"); return; } } if (in_loads.Count > 0) { Loads = in_loads; } if (in_gps.Count > 0) { GridPlaneSurfaces = in_gps; } } // manually add a warning if no input is set, as all inputs are optional if (Models == null & Nodes == null & Elem1ds == null & Elem2ds == null & Mem1ds == null & Mem2ds == null & Mem3ds == null & Sections == null & Prop2Ds == null & Loads == null & GridPlaneSurfaces == null) { AddRuntimeMessage(GH_RuntimeMessageLevel.Warning, "Input parameters failed to collect data"); return; } #endregion #region DoWork GsaModel analysisModel = null; if (Models != null) { if (Models.Count > 0) { if (Models.Count > 1) { analysisModel = Util.Gsa.ToGSA.Models.MergeModel(Models); } else { analysisModel = Models[0].Clone(); } } } if (analysisModel != null) { OutModel = analysisModel; } else { OutModel = new GsaModel(); } // Assemble model Model gsa = Util.Gsa.ToGSA.Assemble.AssembleModel(analysisModel, Nodes, Elem1ds, Elem2ds, Elem3ds, Mem1ds, Mem2ds, Mem3ds, Sections, Prop2Ds, Loads, GridPlaneSurfaces); //gsa.SaveAs(@"C:\Users\Kristjan.Nielsen\Desktop\test3.gwb"); #region meshing // Create elements from members gsa.CreateElementsFromMembers(); #endregion #region analysis //analysis IReadOnlyDictionary <int, AnalysisTask> gsaTasks = gsa.AnalysisTasks(); if (gsaTasks.Count < 1) { AddRuntimeMessage(GH_RuntimeMessageLevel.Remark, "Model contains no Analysis Tasks"); } foreach (KeyValuePair <int, AnalysisTask> task in gsaTasks) { if (!(gsa.Analyse(task.Key))) { AddRuntimeMessage(GH_RuntimeMessageLevel.Warning, "Warning Analysis Case " + task.Key + " could not be analysed"); } } #endregion OutModel.Model = gsa; //gsa.SaveAs("C:\\Users\\Kristjan.Nielsen\\Desktop\\GsaGH_test.gwb"); #endregion #region SetData DA.SetData(0, new GsaModelGoo(OutModel)); #endregion }
public override void GetData(IGH_DataAccess DA, GH_ComponentParamServer Params) { #region GetData Models = null; Nodes = null; Elem1ds = null; Elem2ds = null; Elem3ds = null; Mem1ds = null; Mem2ds = null; Mem3ds = null; Loads = null; Sections = null; Prop2Ds = null; GridPlaneSurfaces = null; OutModel = null; component = Params.Owner; // Get Model input List <GH_ObjectWrapper> gh_types = new List <GH_ObjectWrapper>(); if (DA.GetDataList(0, gh_types)) { List <GsaModel> in_models = new List <GsaModel>(); for (int i = 0; i < gh_types.Count; i++) { if (gh_types[i] == null) { return; } GH_ObjectWrapper gh_typ = gh_types[i]; if (gh_typ.Value is GsaModelGoo) { GsaModel in_model = new GsaModel(); gh_typ.CastTo(ref in_model); in_models.Add(in_model); } else { string type = gh_typ.Value.GetType().ToString(); type = type.Replace("GhSA.Parameters.", ""); type = type.Replace("Goo", ""); Params.Owner.AddRuntimeMessage(GH_RuntimeMessageLevel.Error, "Unable to convert GSA input parameter of type " + type + " to GsaModel"); return; } } Models = in_models; } // Get Section Property input gh_types = new List <GH_ObjectWrapper>(); if (DA.GetDataList(1, gh_types)) { List <GsaSection> in_sect = new List <GsaSection>(); List <GsaProp2d> in_prop = new List <GsaProp2d>(); for (int i = 0; i < gh_types.Count; i++) { if (gh_types[i] == null) { return; } GH_ObjectWrapper gh_typ = gh_types[i]; if (gh_typ.Value is GsaSectionGoo) { GsaSection gsasection = new GsaSection(); gh_typ.CastTo(ref gsasection); in_sect.Add(gsasection.Duplicate()); } else if (gh_typ.Value is GsaProp2dGoo) { GsaProp2d gsaprop = new GsaProp2d(); gh_typ.CastTo(ref gsaprop); in_prop.Add(gsaprop.Duplicate()); } else { string type = gh_typ.Value.GetType().ToString(); type = type.Replace("GhSA.Parameters.", ""); type = type.Replace("Goo", ""); Params.Owner.AddRuntimeMessage(GH_RuntimeMessageLevel.Error, "Unable to convert Prop input parameter of type " + type + " to GsaSection or GsaProp2d"); return; } } if (in_sect.Count > 0) { Sections = in_sect; } if (in_prop.Count > 0) { Prop2Ds = in_prop; } } // Get Geometry input gh_types = new List <GH_ObjectWrapper>(); List <GsaNode> in_nodes = new List <GsaNode>(); List <GsaElement1d> in_elem1ds = new List <GsaElement1d>(); List <GsaElement2d> in_elem2ds = new List <GsaElement2d>(); List <GsaElement3d> in_elem3ds = new List <GsaElement3d>(); List <GsaMember1d> in_mem1ds = new List <GsaMember1d>(); List <GsaMember2d> in_mem2ds = new List <GsaMember2d>(); List <GsaMember3d> in_mem3ds = new List <GsaMember3d>(); if (DA.GetDataList(2, gh_types)) { for (int i = 0; i < gh_types.Count; i++) { if (gh_types[i] == null) { return; } GH_ObjectWrapper gh_typ = gh_types[i]; if (gh_typ.Value is GsaNodeGoo) { GsaNode gsanode = new GsaNode(); gh_typ.CastTo(ref gsanode); in_nodes.Add(gsanode.Duplicate()); } else if (gh_typ.Value is GsaElement1dGoo) { GsaElement1d gsaelem1 = new GsaElement1d(); gh_typ.CastTo(ref gsaelem1); in_elem1ds.Add(gsaelem1.Duplicate()); } else if (gh_typ.Value is GsaElement2dGoo) { GsaElement2d gsaelem2 = new GsaElement2d(); gh_typ.CastTo(ref gsaelem2); in_elem2ds.Add(gsaelem2.Duplicate()); } else if (gh_typ.Value is GsaElement3dGoo) { GsaElement3d gsaelem3 = new GsaElement3d(); gh_typ.CastTo(ref gsaelem3); in_elem3ds.Add(gsaelem3.Duplicate()); } else if (gh_typ.Value is GsaMember1dGoo) { GsaMember1d gsamem1 = new GsaMember1d(); gh_typ.CastTo(ref gsamem1); in_mem1ds.Add(gsamem1.Duplicate()); } else if (gh_typ.Value is GsaMember2dGoo) { GsaMember2d gsamem2 = new GsaMember2d(); gh_typ.CastTo(ref gsamem2); in_mem2ds.Add(gsamem2.Duplicate()); } else if (gh_typ.Value is GsaMember3dGoo) { GsaMember3d gsamem3 = new GsaMember3d(); gh_typ.CastTo(ref gsamem3); in_mem3ds.Add(gsamem3.Duplicate()); } else { string type = gh_typ.Value.GetType().ToString(); type = type.Replace("GhSA.Parameters.", ""); type = type.Replace("Goo", ""); Params.Owner.AddRuntimeMessage(GH_RuntimeMessageLevel.Error, "Unable to convert Geometry input parameter of type " + type + System.Environment.NewLine + " to Node, Element1D, Element2D, Element3D, Member1D, Member2D or Member3D"); return; } } if (in_nodes.Count > 0) { Nodes = in_nodes; } if (in_elem1ds.Count > 0) { Elem1ds = in_elem1ds; } if (in_elem2ds.Count > 0) { Elem2ds = in_elem2ds; } if (in_elem3ds.Count > 0) { Elem3ds = in_elem3ds; } if (in_mem1ds.Count > 0) { Mem1ds = in_mem1ds; } if (in_mem2ds.Count > 0) { Mem2ds = in_mem2ds; } if (in_mem3ds.Count > 0) { Mem3ds = in_mem3ds; } } // Get Loads input gh_types = new List <GH_ObjectWrapper>(); if (DA.GetDataList(3, gh_types)) { List <GsaLoad> in_loads = new List <GsaLoad>(); List <GsaGridPlaneSurface> in_gps = new List <GsaGridPlaneSurface>(); for (int i = 0; i < gh_types.Count; i++) { if (gh_types[i] == null) { return; } GH_ObjectWrapper gh_typ = gh_types[i]; if (gh_typ.Value is GsaLoadGoo) { GsaLoad gsaload = null; gh_typ.CastTo(ref gsaload); in_loads.Add(gsaload.Duplicate()); } else if (gh_typ.Value is GsaGridPlaneSurfaceGoo) { GsaGridPlaneSurface gsaGPS = new GsaGridPlaneSurface(); gh_typ.CastTo(ref gsaGPS); in_gps.Add(gsaGPS.Duplicate()); } else { string type = gh_typ.Value.GetType().ToString(); type = type.Replace("GhSA.Parameters.", ""); type = type.Replace("Goo", ""); Params.Owner.AddRuntimeMessage(GH_RuntimeMessageLevel.Error, "Unable to convert Load input parameter of type " + type + " to Load or GridPlaneSurface"); return; } } if (in_loads.Count > 0) { Loads = in_loads; } if (in_gps.Count > 0) { GridPlaneSurfaces = in_gps; } } #endregion // manually add a warning if no input is set, as all inputs are optional if (Models == null & Nodes == null & Elem1ds == null & Elem2ds == null & Mem1ds == null & Mem2ds == null & Mem3ds == null & Sections == null & Prop2Ds == null & Loads == null & GridPlaneSurfaces == null) { hasInput = false; Params.Owner.AddRuntimeMessage(GH_RuntimeMessageLevel.Warning, "Input parameters failed to collect data"); return; } else { hasInput = true; } }