public static SpeckleObject ToSpeckle(this GsaNode dummyObject)
{
var nodeKw = GsaRecord.GetKeyword<GsaNode>();
var springKw = GsaRecord.GetKeyword<GsaPropSpr>();
var massKw = GsaRecord.GetKeyword<GsaPropMass>();
var loadTaskKw = GsaRecord.GetKeyword<GsaLoadCase>();
var comboKw = GsaRecord.GetKeyword<GsaCombination>();
var newNodeLines = Initialiser.AppResources.Cache.GetGwaToSerialise(nodeKw);
var sendResults = GetNodeResultSettings(out var embedResults, out var resultTypes, out var resultCases);
if (sendResults)
{
Initialiser.AppResources.Proxy.LoadResults(ResultGroup.Node, out int numErrorRows, resultCases, newNodeLines.Keys.ToList());
if (numErrorRows > 0)
{
Initialiser.AppResources.Messenger.Message(MessageIntent.Display, MessageLevel.Error, "Unable to process " + numErrorRows + " rows of node results");
Initialiser.AppResources.Messenger.Message(MessageIntent.TechnicalLog, MessageLevel.Error, "Unable to process " + numErrorRows + " rows of node results");
}
}
//This method produces two types of SpeckleStructural objects
var structuralNodes = new List<StructuralNode>();
var structural0dSprings = new List<Structural0DSpring>();
int numToBeSent = 0;
#if DEBUG
foreach (var i in newNodeLines.Keys)
#else
Parallel.ForEach(newNodeLines.Keys, i =>
#endif
{
GsaNode gsaNode = null;
var objNode = Helper.ToSpeckleTryCatch(nodeKw, i, () =>
{
gsaNode = new GsaNode();
if (gsaNode.FromGwa(newNodeLines[i]))
{
var structuralNode = new StructuralNode()
{
Name = gsaNode.Name,
ApplicationId = SpeckleStructuralGSA.Helper.GetApplicationId(nodeKw, i),
Value = new List<double>() { gsaNode.X, gsaNode.Y, gsaNode.Z },
Restraint = GetRestraint(gsaNode)
};
if (gsaNode.MeshSize.HasValue && gsaNode.MeshSize.Value > 0)
{
structuralNode.GSALocalMeshSize = gsaNode.MeshSize.Value;
}
if (gsaNode.MassPropertyIndex.HasValue && gsaNode.MassPropertyIndex.Value > 0)
{
var massGwas = Initialiser.AppResources.Cache.GetGwa(massKw, gsaNode.MassPropertyIndex.Value);
if (massGwas != null && massGwas.Count() > 0 && !string.IsNullOrEmpty(massGwas.First()))
{
var gsaPropMass = new GsaPropMass();
if (gsaPropMass.FromGwa(massGwas.First()) && gsaPropMass.Mass > 0)
{
structuralNode.Mass = gsaPropMass.Mass;
}
}
}
return structuralNode;
}
return new SpeckleNull();
});
if (objNode !=null && !(objNode is SpeckleNull))
{
var structuralNode = (StructuralNode)objNode;
GSANodeResult gsaNodeResult = null;
//Embed results if appropriate as the last thing to do to the new Speckle object before being added to the collection of objects to be sent
if (sendResults)
{
if (Initialiser.AppResources.Proxy.GetResultHierarchy(ResultGroup.Node, i, out var results) && results != null)
{
var orderedLoadCases = results.Keys.OrderBy(k => k).ToList();
if (embedResults)
{
foreach (var loadCase in orderedLoadCases)
{
if (!Helper.FilterResults(results[loadCase], out Dictionary<string, object> sendableResults))
{
continue;
}
var nodeResult = new StructuralNodeResult()
{
IsGlobal = !Initialiser.AppResources.Settings.ResultInLocalAxis,
TargetRef = structuralNode.ApplicationId,
Value = sendableResults
};
var loadCaseRef = Helper.GsaCaseToRef(loadCase, loadTaskKw, comboKw);
if (!string.IsNullOrEmpty(loadCaseRef))
{
//nodeResult.LoadCaseRef = loadCaseRef;
nodeResult.LoadCaseRef = loadCase;
}
if (structuralNode.Result == null)
{
//Can't just allocate an empty dictionary as the Result set property won't allow it
structuralNode.Result = new Dictionary<string, object>() { { loadCase, nodeResult } };
}
else
{
structuralNode.Result.Add(loadCase, nodeResult);
}
}
}
else
{
foreach (var loadCase in orderedLoadCases)
{
if (!Helper.FilterResults(results[loadCase], out Dictionary<string, object> sendableResults))
{
continue;
}
var nodeResult = new StructuralNodeResult()
{
IsGlobal = !Initialiser.AppResources.Settings.ResultInLocalAxis,
TargetRef = structuralNode.ApplicationId,
Value = sendableResults
};
var loadCaseRef = Helper.GsaCaseToRef(loadCase, loadTaskKw, comboKw);
if (!string.IsNullOrEmpty(loadCaseRef))
{
//nodeResult.LoadCaseRef = loadCaseRef;
nodeResult.LoadCaseRef = loadCase;
}
gsaNodeResult = new GSANodeResult { Value = nodeResult, GSAId = i };
Initialiser.GsaKit.GSASenderObjects.Add(gsaNodeResult);
}
}
}
}
var senderObjectGsaNode = new GSANode()
{
Value = structuralNode,
GSAId = i
};
if (gsaNodeResult != null)
{
senderObjectGsaNode.ForceSend = true;
}
Initialiser.GsaKit.GSASenderObjects.Add(senderObjectGsaNode);
numToBeSent++;
//Add spring object if appropriate
if (gsaNode.SpringPropertyIndex.HasValue && gsaNode.SpringPropertyIndex.Value > 0)
{
var objSpring = Helper.ToSpeckleTryCatch(nodeKw, i, () =>
{
var springPropRef = SpeckleStructuralGSA.Helper.GetApplicationId(springKw, gsaNode.SpringPropertyIndex.Value);
if (!string.IsNullOrEmpty(springPropRef))
{
var structural0dSpring = new Structural0DSpring()
{
//The application ID might need a better mechanism to allow a StructuralNode and Structural0DSpring previously received
//that originally created the one node to be separated out again to produce the Application ID to use here for this spring
//TO DO - review, for now just append a string to ensure the same Application ID value isn't used twice
ApplicationId = gsaNode.ApplicationId + "_spring",
Name = gsaNode.Name,
Value = new List<double>() { gsaNode.X, gsaNode.Y, gsaNode.Z },
PropertyRef = springPropRef,
Dummy = false
};
return structural0dSpring;
}
return new SpeckleNull();
});
if (!(objSpring is SpeckleNull))
{
Initialiser.GsaKit.GSASenderObjects.Add(new GSA0DSpring() { Value = (Structural0DSpring)objSpring, GSAId = i });
numToBeSent++;
}
} //if spring object needs to be added
} //if node object was successfully created
}
#if !DEBUG
);
#endif
if (sendResults)
{
Initialiser.AppResources.Proxy.ClearResults(ResultGroup.Node);
}
return (numToBeSent > 0) ? new SpeckleObject() : new SpeckleNull();
}
