/// <summary>
/// Add materials to the IDEA open model
/// </summary>
/// <param name="model">Open model</param>
private static void AddMaterialsToIOM(OpenModel model)
{
MatSteelEc2 material = new MatSteelEc2();
material.Id = 1;
material.Name = "S355";
material.E = 210000000000.00003;
material.G = material.E / (2 * (1 + 0.3));
material.Poisson = 0.3;
material.UnitMass = 7850;
material.SpecificHeat = 0.6;
material.ThermalExpansion = 0.000012;
material.ThermalConductivity = 45;
material.IsDefaultMaterial = false;
material.OrderInCode = 0;
material.StateOfThermalExpansion = ThermalExpansionState.Code;
material.StateOfThermalConductivity = ThermalConductivityState.Code;
material.StateOfThermalSpecificHeat = ThermalSpecificHeatState.Code;
material.StateOfThermalStressStrain = ThermalStressStrainState.Code;
material.StateOfThermalStrain = ThermalStrainState.Code;
material.fy = 355000000.00000006;
material.fu = 510000000.00000006;
material.fy40 = 335000000.00000006;
material.fu40 = 470000000.00000006;
material.DiagramType = SteelDiagramType.Bilinear;
model.AddObject(material);
}
private void AddMaterialsToOpenModel()
{
MatSteelEc2 matOM = new MatSteelEc2();
matOM.Id = openStructModel.GetMaxId(matOM) + 1;
matOM.Name = "S275";
matOM.E = 210000000;
matOM.G = matOM.E / (2 * (1 + 0.3));
matOM.Poisson = 0.3;
matOM.UnitMass = 7850 / 9.81;
matOM.fu = 430000000;
matOM.fy = 275000000;
matOM.fu40 = 410000000;
matOM.fy40 = 255000000;
matOM.SpecificHeat = 0.49;
matOM.ThermalConductivity = 50.2;
matOM.ThermalExpansion = 0.000012;
openStructModel.AddObject(matOM);
}
/// <summary>
/// Serializes the openmodel object and returns it as a memory stream
/// </summary>
/// <returns>memory stream containing the openmodel serialized in xml format</returns>
private void AddMaterialSteelToOpenModel(MaterialSteel material)
{
MatSteelEc2 matOM = new MatSteelEc2();
matOM.Id = material.id;
matOM.Name = material.name;
matOM.E = 210000000;
matOM.Poisson = 0.3;
matOM.UnitMass = 7870 / 9.81;
matOM.fu = material.fu * Math.Pow(10, 6); // 430000000;
matOM.fy = material.fy * Math.Pow(10, 6); // 275000000;
matOM.fu40 = material.fu40 * Math.Pow(10, 6); // 410000000;
matOM.fy40 = material.fy40 * Math.Pow(10, 6); // 255000000;
matOM.SpecificHeat = 0.49;
matOM.ThermalConductivity = 50.2;
matOM.ThermalExpansion = 0.000012;
matOM.G = matOM.E / (2 * (1 + matOM.Poisson));
openModel.AddObject(matOM);
}
protected override ModelBIM ImportActive(CountryCode countryCode, RequestedItemsType requestedType)
{
try
{
if (_selectedObjects?.Count == 0)
{
Debug.Fail("Nothing selected");
return(null);
}
var materials = new Dictionary <string, MatSteelEc2>();
var crossSections = new Dictionary <string, CrossSectionParameter>();
var pointConnections = _selectedObjects.OfType <StructuralPointConnection>().ToList();
var curveMembers = _selectedObjects.OfType <StructuralCurveMember>().ToList();
var assemblies = _selectedObjects.OfType <ElementAssembly>().ToList();
if (pointConnections.Count == 0)
{
MessageBoxHelper.ShowInformation("please select a PointConnection object to identify the connectionPoint", null);
return(null);
}
// read all nodes (maybe it's esier)
var nodes = _integrationBase.ApiCore.DtObjects.GetObjects <StructuralPointConnection>(
_integrationBase.CurrentProject.Id, false, false, true);
OpenModel openModel = new OpenModel
{
OriginSettings = new OriginSettings()
{
CrossSectionConversionTable = IdeaRS.OpenModel.CrossSectionConversionTable.NoUsed, CountryCode = countryCode
}
};
int ccsId = 1;
int matId = 1;
int lsId = 1;
int memberId = 1;
// ConnectionPoint
ConnectionPoint connectionPoint = null;
foreach (var point in pointConnections)
{
// ad main node to openModel
connectionPoint = new ConnectionPoint();
if (point.NodeId.HasValue)
{
ConnectionPointId = point.NodeId.Value;
}
Point3D node = AddNodeToOpenModel(point, openModel, ConnectionPointId);
connectionPoint.Node = new ReferenceElement(node);
connectionPoint.Id = ConnectionPointId;
connectionPoint.Name = string.Format("Conn-{0}", ConnectionPointId);
connectionPoint.ProjectFileName = Path.Combine(".\\Connections", connectionPoint.Name + ".ideaCon");
}
// try to add Member1D objects if they are not selected by user
foreach (var assembly in assemblies)
{
if (assembly.Connections == null)
{
continue;
}
foreach (var c in assembly.Connections)
{
var ce = c as RelConnectsElements;
if (ce == null || curveMembers.Find(x => x.Id == ce.RelatedElement.Value) != null)
{
continue;
}
var cm = _integrationBase.ApiCore.DtObjects.GetObjectInternal(ce.RelatedElement.Value) as StructuralCurveMember;
if (cm != null)
{
foreach (var cm1 in pointConnections[0].ConnectsStructuralMembers)
{
if (cm.Id.ToString() == cm1.RelatingStructuralMember.GetValueOrDefault().ToString())
{
curveMembers.Add(cm);
}
}
}
}
}
// create Element1D from StructuralCurveMember
foreach (var element in curveMembers)
{
var matName = element.GetStringProperty(TableNames.contentAttributes, MaterialAttributeId) ?? "S355";
if (!materials.ContainsKey(matName))
{
MatSteelEc2 material = new MatSteelEc2();
// set properties
material.Id = matId++;
material.Name = matName;
material.E = 210000000000;
material.G = material.E / (2 * (1 + 0.3));
material.Poisson = 0.3;
material.UnitMass = 7850;
material.SpecificHeat = 0.6;
material.ThermalExpansion = 0.000012;
material.ThermalConductivity = 45;
material.IsDefaultMaterial = false;
material.OrderInCode = 0;
material.StateOfThermalExpansion = ThermalExpansionState.Code;
material.StateOfThermalConductivity = ThermalConductivityState.Code;
material.StateOfThermalSpecificHeat = ThermalSpecificHeatState.Code;
material.StateOfThermalStressStrain = ThermalStressStrainState.Code;
material.StateOfThermalStrain = ThermalStrainState.Code;
material.fy = 355000000;
material.fu = 510000000;
material.fy40 = 335000000;
material.fu40 = 470000000;
material.DiagramType = SteelDiagramType.Bilinear;
// add material to the model
openModel.AddObject(material);
materials.Add(matName, material);
}
var crossSection = element.GetStringProperty(TableNames.contentAttributes, CrossSectionAttributeId) ?? "HE200";
crossSection = crossSection.Replace("HE200B", "HEB200");
crossSection = crossSection.Replace("HE240B", "HEB240");
if (!crossSections.ContainsKey(crossSection))
{
CrossSectionParameter css = new CrossSectionParameter
{
Id = ccsId++,
Name = crossSection,
CrossSectionRotation = 0,
CrossSectionType = CrossSectionType.RolledI,
Material = new ReferenceElement(materials[matName])
};
css.Parameters.Add(new ParameterString()
{
Name = "UniqueName", Value = crossSection
});
// add cross sections to the model
openModel.AddObject(css);
crossSections.Add(crossSection, css);
}
if (element?.ConnectedBy.Count != 2)
{
continue;
}
var node = nodes.Find(x => x.Id == element?.ConnectedBy[0].RelatedStructuralConnection.Value);
if (node == null)
{
continue;
}
Point3D ptA = AddNodeToOpenModel(node, openModel, node.NodeId.GetValueOrDefault());
node = nodes.Find(x => x.Id == element?.ConnectedBy[1].RelatedStructuralConnection.Value);
Point3D ptB = AddNodeToOpenModel(node, openModel, node.NodeId.GetValueOrDefault());
var member1d = new Member1D
{
Id = memberId++,
Name = element.Name
};
IdeaRS.OpenModel.Geometry3D.PolyLine3D polyLine3D = new IdeaRS.OpenModel.Geometry3D.PolyLine3D
{
Id = member1d.Id
};
var start = new WM.Point3D(ptA.X, ptA.Y, ptA.Z);
var end = new WM.Point3D(ptB.X, ptB.Y, ptB.Z);
var dirVectort = end - start;
GetAngles(dirVectort, out double alpha, out double beta);
beta *= -1;
CI.Geometry3D.Matrix44 lcsSegmentMatrix = new CI.Geometry3D.Matrix44();
if (!IsZero(beta))
{
// gamma pitch
lcsSegmentMatrix.Rotate(beta, new CI.Geometry3D.Vector3D(0, 1, 0));
}
if (!IsZero(alpha))
{
// beta direction
lcsSegmentMatrix.Rotate(alpha, new CI.Geometry3D.Vector3D(0, 0, 1));
}
IdeaRS.OpenModel.Geometry3D.LineSegment3D ls = new IdeaRS.OpenModel.Geometry3D.LineSegment3D
{
Id = member1d.Id,
StartPoint = new ReferenceElement(ptA),
EndPoint = new ReferenceElement(ptB),
LocalCoordinateSystem = new IdeaRS.OpenModel.Geometry3D.CoordSystemByVector()
{
VecX = new IdeaRS.OpenModel.Geometry3D.Vector3D()
{
X = lcsSegmentMatrix.AxisX.DirectionX,
Y = lcsSegmentMatrix.AxisX.DirectionY,
Z = lcsSegmentMatrix.AxisX.DirectionZ,
}
,
VecY = new IdeaRS.OpenModel.Geometry3D.Vector3D()
{
X = lcsSegmentMatrix.AxisY.DirectionX,
Y = lcsSegmentMatrix.AxisY.DirectionY,
Z = lcsSegmentMatrix.AxisY.DirectionZ,
}
,
VecZ = new IdeaRS.OpenModel.Geometry3D.Vector3D()
{
X = lcsSegmentMatrix.AxisZ.DirectionX,
Y = lcsSegmentMatrix.AxisZ.DirectionY,
Z = lcsSegmentMatrix.AxisZ.DirectionZ,
}
},
};
polyLine3D.Segments.Add(new ReferenceElement(ls));
openModel.PolyLine3D.Add(polyLine3D);
openModel.LineSegment3D.Add(ls);
Element1D element1d = new Element1D
{
Id = member1d.Id,
Name = element.Id.ToString(), //element.Name, Its esier for mapping Element1D with bimplus Structuralcurvemember
RotationRx = element.GetDoubleProperty(TableNames.contentAttributes, RotationAttributeId) ?? 0,
CrossSectionBegin = new ReferenceElement(crossSections[crossSection]),
CrossSectionEnd = new ReferenceElement(crossSections[crossSection]),
Segment = new ReferenceElement(ls)
};
openModel.Element1D.Add(element1d);
member1d.Elements1D.Add(new ReferenceElement(element1d));
openModel.Member1D.Add(member1d);
if (connectionPoint != null)
{
ConnectedMember conMb = new ConnectedMember
{
Id = member1d.Id,
MemberId = new ReferenceElement(member1d),
IsContinuous = false,
};
connectionPoint.ConnectedMembers.Add(conMb);
}
BeamData beamData = new BeamData
{
Id = member1d.Id,
Name = element1d.Name,
OriginalModelId = member1d.Id.ToString(), // member1d.Name,
IsAdded = false,
MirrorY = false,
RefLineInCenterOfGravity = true,
};
if (openModel.Connections.Count == 0)
{
openModel.Connections.Add(new ConnectionData());
}
(openModel.Connections[0].Beams ?? (openModel.Connections[0].Beams = new List <BeamData>())).Add(beamData);
}
// create Member1D from assemblies
/* foreach (var assembly in assemblies)
* {
* var member1d = new Member1D
* {
* Id = assembly.OrderNumber.GetValueOrDefault(),
* Name = assembly.Name
* };
* foreach (var c in assembly.Connections)
* {
* var ce = c as RelConnectsElements;
* var element = openModel.Element1D.Find(x => x.Name == ce.RelatedElement.ToString());
* if (element == null) continue;
* member1d.Elements1D.Add(new ReferenceElement(element));
* openModel.Member1D.Add(member1d);
* }
* }*/
/*if (connectionPoint != null)
* {
* var p0t = pointConnections.Find(x => x.NodeId.GetValueOrDefault() == ConnectionPointId);
* if (p0t != null && p0t.ConnectsStructuralMembers != null)
* {
* foreach (var cm in p0t.ConnectsStructuralMembers)
* {
* var member = openModel.Element1D.Find(x => x.Name == cm.RelatingStructuralMember.GetValueOrDefault().ToString());
* if (member == null)
* continue;
* ConnectedMember conMb = new ConnectedMember
* {
* Id = member.Id,
* MemberId = new ReferenceElement(member),
* IsContinuous = false,
* };
* connectionPoint.ConnectedMembers.Add(conMb);
*
* // BEAM DATA - definition
* BeamData bData = new BeamData
* {
* Id = conMb.Id,
* OriginalModelId = "???", // ass.Id.ToString(), is it important?
* IsAdded = false,
* MirrorY = false,
* RefLineInCenterOfGravity = false,
* };
* if (openModel.Connections.Count == 0)
* {
* openModel.Connections.Add(new ConnectionData { Beams = new List<BeamData>() });
* }
* openModel.Connections[0].Beams.Add(bData);
* }
* }
*
* }*/
openModel.AddObject(connectionPoint); // important !!!
OpenModelResult openModelResult =
new OpenModelResult()
{
ResultOnMembers = new System.Collections.Generic.List <ResultOnMembers>()
{
new ResultOnMembers()
}
};
OpenMessages openMessages = new OpenMessages();
return(new ModelBIM()
{
Items = new List <BIMItemId>()
{
new BIMItemId()
{
Id = connectionPoint.Id, Type = BIMItemType.Node
}
},
Model = openModel,
Results = openModelResult,
Messages = openMessages,
Project = AllplanBimplusDemo.Properties.Settings.Default.IdeaDefaultWorkingDir,
});
}
catch (Exception e)
{
MessageBoxHelper.ShowInformation(e.Message, null);
return(null);
}
}
