public static SpeckleObject ToSpeckle(this GSA1DElementResult dummyObject)
{
if (Initialiser.Settings.Element1DResults.Count() == 0)
{
return(new SpeckleNull());
}
if (Initialiser.Settings.EmbedResults && !Initialiser.GSASenderObjects.ContainsKey(typeof(GSA1DElement)))
{
return(new SpeckleNull());
}
if (Initialiser.Settings.EmbedResults)
{
var elements = Initialiser.GSASenderObjects[typeof(GSA1DElement)].Cast <GSA1DElement>().ToList();
var entities = elements.Cast <IGSASpeckleContainer>().ToList();
foreach (var kvp in Initialiser.Settings.Element1DResults)
{
foreach (var loadCase in Initialiser.Settings.ResultCases)
{
if (!Initialiser.Interface.CaseExist(loadCase))
{
continue;
}
foreach (var entity in entities)
{
var id = entity.GSAId;
if (entity.Value.Result == null)
{
entity.Value.Result = new Dictionary <string, object>();
}
var resultExport = Initialiser.Interface.GetGSAResult(id, kvp.Value.Item1, kvp.Value.Item2, kvp.Value.Item3, loadCase, Initialiser.Settings.ResultInLocalAxis
? "local" : "global", Initialiser.Settings.Result1DNumPosition);
if (resultExport == null)
{
continue;
}
if (!entity.Value.Result.ContainsKey(loadCase))
{
entity.Value.Result[loadCase] = new Structural1DElementResult()
{
Value = new Dictionary <string, object>()
}
}
;
(entity.Value.Result[loadCase] as Structural1DElementResult).Value[kvp.Key] = resultExport;
}
}
}
// Linear interpolate the line values
foreach (var entity in entities)
{
var dX = (entity.Value.Value[3] - entity.Value.Value[0]) / (Initialiser.Settings.Result1DNumPosition + 1);
var dY = (entity.Value.Value[4] - entity.Value.Value[1]) / (Initialiser.Settings.Result1DNumPosition + 1);
var dZ = (entity.Value.Value[5] - entity.Value.Value[2]) / (Initialiser.Settings.Result1DNumPosition + 1);
var interpolatedVertices = new List <double>();
interpolatedVertices.AddRange((entity.Value.Value as List <double>).Take(3));
for (var i = 1; i <= Initialiser.Settings.Result1DNumPosition; i++)
{
interpolatedVertices.Add(interpolatedVertices[0] + dX * i);
interpolatedVertices.Add(interpolatedVertices[1] + dY * i);
interpolatedVertices.Add(interpolatedVertices[2] + dZ * i);
}
interpolatedVertices.AddRange((entity.Value.Value as List <double>).Skip(3).Take(3));
entity.Value.ResultVertices = interpolatedVertices;
}
}
else
{
Initialiser.GSASenderObjects[typeof(GSA1DElementResult)] = new List <object>();
var results = new List <GSA1DElementResult>();
var keyword = HelperClass.GetGSAKeyword(typeof(GSA1DElement));
var gwa = Initialiser.Cache.GetGwa(keyword);
foreach (var kvp in Initialiser.Settings.Element1DResults)
{
foreach (var loadCase in Initialiser.Settings.ResultCases)
{
if (!Initialiser.Interface.CaseExist(loadCase))
{
continue;
}
for (var i = 0; i < gwa.Count(); i++)
{
var record = gwa[i];
var pPieces = record.ListSplit("\t");
if (pPieces[4].ParseElementNumNodes() != 2)
{
continue;
}
if (!int.TryParse(pPieces[1], out var id))
{
//Could not extract index
continue;
}
var resultExport = Initialiser.Interface.GetGSAResult(id, kvp.Value.Item1, kvp.Value.Item2, kvp.Value.Item3, loadCase, Initialiser.Settings.ResultInLocalAxis ? "local" : "global", Initialiser.Settings.Result1DNumPosition);
if (resultExport == null || resultExport.Count() == 0)
{
continue;
}
var existingRes = results.FirstOrDefault(x => x.Value.TargetRef == id.ToString());
if (existingRes == null)
{
var newRes = new Structural1DElementResult()
{
Value = new Dictionary <string, object>(),
TargetRef = HelperClass.GetApplicationId(typeof(GSA1DElement).GetGSAKeyword(), id),
IsGlobal = !Initialiser.Settings.ResultInLocalAxis,
};
newRes.Value[kvp.Key] = resultExport;
newRes.GenerateHash();
results.Add(new GSA1DElementResult()
{
Value = newRes
});
}
else
{
existingRes.Value.Value[kvp.Key] = resultExport;
}
}
}
}
Initialiser.GSASenderObjects[typeof(GSA1DElementResult)].AddRange(results);
}
return(new SpeckleObject());
}
public static SpeckleObject ToSpeckle(this GSANodeResult dummyObject)
{
if (Initialiser.Settings.NodalResults.Count() == 0)
{
return(new SpeckleNull());
}
if (Initialiser.Settings.EmbedResults && !Initialiser.GSASenderObjects.ContainsKey(typeof(GSANode)))
{
return(new SpeckleNull());
}
if (Initialiser.Settings.EmbedResults)
{
var nodes = Initialiser.GSASenderObjects[typeof(GSANode)].Cast <GSANode>().ToList();
foreach (var kvp in Initialiser.Settings.NodalResults)
{
foreach (var loadCase in Initialiser.Settings.ResultCases)
{
if (!Initialiser.Interface.CaseExist(loadCase))
{
continue;
}
foreach (var node in nodes)
{
var id = node.GSAId;
if (node.Value.Result == null)
{
node.Value.Result = new Dictionary <string, object>();
}
var resultExport = Initialiser.Interface.GetGSAResult(id, kvp.Value.Item1, kvp.Value.Item2, kvp.Value.Item3, loadCase, Initialiser.Settings.ResultInLocalAxis ? "local" : "global");
if (resultExport == null || resultExport.Count() == 0)
{
continue;
}
if (!node.Value.Result.ContainsKey(loadCase))
{
node.Value.Result[loadCase] = new StructuralNodeResult()
{
Value = new Dictionary <string, object>()
};
}
(node.Value.Result[loadCase] as StructuralNodeResult).Value[kvp.Key] = resultExport.ToDictionary(x => x.Key, x => (x.Value as List <double>)[0] as object);
node.ForceSend = true;
}
}
}
}
else
{
Initialiser.GSASenderObjects[typeof(GSANodeResult)] = new List <object>();
var results = new List <GSANodeResult>();
var keyword = HelperClass.GetGSAKeyword(typeof(GSANode));
var indices = Initialiser.Cache.LookupIndices(keyword).Where(i => i.HasValue).Select(i => i.Value).ToList();
foreach (var kvp in Initialiser.Settings.NodalResults)
{
foreach (var loadCase in Initialiser.Settings.ResultCases)
{
if (!Initialiser.Interface.CaseExist(loadCase))
{
continue;
}
for (var i = 0; i < indices.Count(); i++)
{
var id = indices[i];
//var id = 1;
//var highestIndex = (int)Initialiser.Interface.RunGWACommand("HIGHEST\t" + keyword);
//while (id <= highestIndex)
//{
//if ((int)Initialiser.Interface.RunGWACommand("EXIST\t" + keyword + "\t" + id.ToString()) == 1)
//{
var resultExport = Initialiser.Interface.GetGSAResult(id, kvp.Value.Item1, kvp.Value.Item2, kvp.Value.Item3, loadCase, Initialiser.Settings.ResultInLocalAxis ? "local" : "global");
if (resultExport == null || resultExport.Count() == 0)
{
id++;
continue;
}
var existingRes = results.FirstOrDefault(x => x.Value.TargetRef == id.ToString());
if (existingRes == null)
{
var newRes = new StructuralNodeResult()
{
Value = new Dictionary <string, object>(),
TargetRef = HelperClass.GetApplicationId(typeof(GSANode).GetGSAKeyword(), id),
IsGlobal = !Initialiser.Settings.ResultInLocalAxis,
};
newRes.Value[kvp.Key] = resultExport;
newRes.GenerateHash();
results.Add(new GSANodeResult()
{
Value = newRes
});
}
else
{
existingRes.Value.Value[kvp.Key] = resultExport;
}
//}
//id++;
}
}
}
Initialiser.GSASenderObjects[typeof(GSANodeResult)].AddRange(results);
}
return(new SpeckleObject());
}
public static SpeckleObject ToSpeckle(this GSA2DElementResult dummyObject)
{
if (Initialiser.Settings.Element2DResults.Count() == 0)
{
return(new SpeckleNull());
}
if (Initialiser.Settings.EmbedResults && !Initialiser.GSASenderObjects.ContainsKey(typeof(GSA2DElement)))
{
return(new SpeckleNull());
}
if (Initialiser.Settings.EmbedResults)
{
var elements = Initialiser.GSASenderObjects[typeof(GSA2DElement)].Cast <GSA2DElement>().ToList();
foreach (var kvp in Initialiser.Settings.Element2DResults)
{
foreach (var loadCase in Initialiser.Settings.ResultCases)
{
if (!Initialiser.Interface.CaseExist(loadCase))
{
continue;
}
foreach (var element in elements)
{
var id = element.GSAId;
if (element.Value.Result == null)
{
element.Value.Result = new Dictionary <string, object>();
}
var resultExport = Initialiser.Interface.GetGSAResult(id, kvp.Value.Item1, kvp.Value.Item2, kvp.Value.Item3, loadCase, Initialiser.Settings.ResultInLocalAxis ? "local" : "global");
if (resultExport == null || resultExport.Count() == 0)
{
continue;
}
if (!element.Value.Result.ContainsKey(loadCase))
{
element.Value.Result[loadCase] = new Structural2DElementResult()
{
Value = new Dictionary <string, object>()
}
}
;
// Let's split the dictionary into xxx_face and xxx_vertex
var faceDictionary = resultExport.ToDictionary(
x => x.Key,
x => new List <double>()
{
(x.Value as List <double>).Last()
} as object);
var vertexDictionary = resultExport.ToDictionary(
x => x.Key,
x => (x.Value as List <double>).Take((x.Value as List <double>).Count - 1).ToList() as object);
(element.Value.Result[loadCase] as Structural2DElementResult).Value[kvp.Key + "_face"] = faceDictionary;
(element.Value.Result[loadCase] as Structural2DElementResult).Value[kvp.Key + "_vertex"] = vertexDictionary;
}
}
}
}
else
{
Initialiser.GSASenderObjects[typeof(GSA2DElementResult)] = new List <object>();
var results = new List <GSA2DElementResult>();
var keyword = HelperClass.GetGSAKeyword(typeof(GSA2DElement));
var gwa = Initialiser.Cache.GetGwa(keyword);
foreach (var kvp in Initialiser.Settings.Element2DResults)
{
foreach (var loadCase in Initialiser.Settings.ResultCases)
{
if (!Initialiser.Interface.CaseExist(loadCase))
{
continue;
}
for (var i = 0; i < gwa.Count(); i++)
{
var record = gwa[i];
var pPieces = record.ListSplit("\t");
if (pPieces[4].ParseElementNumNodes() != 3 && pPieces[4].ParseElementNumNodes() != 4)
{
continue;
}
if (!int.TryParse(pPieces[1], out var id))
{
//Could not extract index
continue;
}
var resultExport = Initialiser.Interface.GetGSAResult(id, kvp.Value.Item1, kvp.Value.Item2, kvp.Value.Item3, loadCase, Initialiser.Settings.ResultInLocalAxis ? "local" : "global");
if (resultExport == null)
{
continue;
}
// Let's split the dictionary into xxx_face and xxx_vertex
var faceDictionary = resultExport.ToDictionary(
x => x.Key,
x => new List <double>()
{
(x.Value as List <double>).Last()
} as object);
var vertexDictionary = resultExport.ToDictionary(
x => x.Key,
x => (x.Value as List <double>).Take((x.Value as List <double>).Count - 1).ToList() as object);
var existingRes = results.FirstOrDefault(x => x.Value.TargetRef == id.ToString());
if (existingRes == null)
{
var newRes = new Structural2DElementResult()
{
Value = new Dictionary <string, object>(),
TargetRef = HelperClass.GetApplicationId(typeof(GSA2DElement).GetGSAKeyword(), id),
IsGlobal = !Initialiser.Settings.ResultInLocalAxis,
};
newRes.Value[kvp.Key + "_face"] = faceDictionary;
newRes.Value[kvp.Key + "_vertex"] = vertexDictionary;
newRes.GenerateHash();
results.Add(new GSA2DElementResult()
{
Value = newRes
});
}
else
{
existingRes.Value.Value[kvp.Key + "_face"] = faceDictionary;
existingRes.Value.Value[kvp.Key + "_vertex"] = vertexDictionary;
}
}
}
}
Initialiser.GSASenderObjects[typeof(GSA2DElementResult)].AddRange(results);
}
return(new SpeckleObject());
}