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StructureHelper/StructureHelperLogics/NdmCalculations/Analyses/ByForces/ForceCalculator.cs
ear 716c3764c1 Accidental eccentricity logic was changed
2024-02-25 18:44:26 +05:00

325 lines
12 KiB
C#
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using LoaderCalculator.Data.Ndms;
using StructureHelperCommon.Infrastructures.Enums;
using StructureHelperCommon.Models;
using StructureHelperCommon.Models.Calculators;
using StructureHelperCommon.Models.Forces;
using StructureHelperCommon.Models.Sections;
using StructureHelperCommon.Models.Shapes;
using StructureHelperCommon.Services.Forces;
using StructureHelperLogics.NdmCalculations.Analyses.ByForces.Logics;
using StructureHelperLogics.NdmCalculations.Buckling;
using StructureHelperLogics.NdmCalculations.Primitives;
using StructureHelperLogics.Services.NdmPrimitives;
namespace StructureHelperLogics.NdmCalculations.Analyses.ByForces
{
public class ForceCalculator : IForceCalculator, IHasActionByResult
{
static readonly ForceCalculatorUpdateStrategy updateStrategy = new();
private readonly IForceTupleCalculator forceTupleCalculator;
public string Name { get; set; }
public List<LimitStates> LimitStatesList { get; private set; }
public List<CalcTerms> CalcTermsList { get; private set; }
public List<IForceAction> ForceActions { get; private set; }
public List<INdmPrimitive> Primitives { get; private set; }
public IResult Result { get; private set; }
public ICompressedMember CompressedMember { get; private set; }
public IAccuracy Accuracy { get; set; }
public List<IForceCombinationList> ForceCombinationLists { get; private set; }
public Action<IResult> ActionToOutputResults { get; set; }
public IShiftTraceLogger? TraceLogger { get; set; }
public void Run()
{
var checkResult = CheckInputData();
if (checkResult != "")
{
Result = new ForcesResults()
{
IsValid = false,
Description = checkResult
};
return;
}
else
{
GetCombinations();
CalculateResult();
}
}
private void CalculateResult()
{
var ndmResult = new ForcesResults() { IsValid = true };
foreach (var combination in ForceCombinationLists)
{
foreach (var tuple in combination.DesignForces)
{
var limitState = tuple.LimitState;
var calcTerm = tuple.CalcTerm;
if (LimitStatesList.Contains(limitState) & CalcTermsList.Contains(calcTerm))
{
ProcessNdmResult(ndmResult, combination, tuple, limitState, calcTerm);
}
}
}
Result = ndmResult;
}
private void ProcessNdmResult(ForcesResults ndmResult, IForceCombinationList combination, IDesignForceTuple tuple, LimitStates limitState, CalcTerms calcTerm)
{
var ndms = NdmPrimitivesService.GetNdms(Primitives, limitState, calcTerm);
IPoint2D point2D;
if (combination.SetInGravityCenter == true)
{
var (Cx, Cy) = LoaderCalculator.Logics.Geometry.GeometryOperations.GetGravityCenter(ndms);
point2D = new Point2D(){ X = Cx, Y = Cy };
}
else point2D = combination.ForcePoint;
var newTuple = ForceTupleService.MoveTupleIntoPoint(tuple.ForceTuple, point2D);
TraceLogger?.AddMessage($"Input force combination");
TraceLogger?.AddEntry(new TraceTablesFactory().GetByForceTuple(newTuple));
if (CompressedMember.Buckling == true)
{
if (newTuple.Nz >= 0d)
{
TraceLogger.AddMessage(string.Format("Second order effect is not considered as Nz={0} >= 0", newTuple.Nz));
}
else
{
newTuple = ProcessAccEccentricity(ndms, newTuple);
newTuple = GetForceTupleByBuckling(ndmResult, combination, limitState, calcTerm, ndms, newTuple);
}
GetForceResult(ndmResult, limitState, calcTerm, ndms, newTuple);
}
else
{
if (newTuple.Nz < 0d)
{
string message = string.Format("Second order effect is not considered, despite force Nz={0}", newTuple.Nz);
TraceLogger.AddMessage(message, TraceLogStatuses.Warning);
}
GetForceResult(ndmResult, limitState, calcTerm, ndms, newTuple);
}
}
private IForceTuple GetForceTupleByBuckling(ForcesResults ndmResult, IForceCombinationList combination, LimitStates limitState, CalcTerms calcTerm, List<INdm> ndms, IForceTuple newTuple)
{
var inputData = new BucklingInputData()
{
Combination = combination,
LimitState = limitState,
CalcTerm = calcTerm,
Ndms = ndms,
ForceTuple = newTuple
};
var bucklingResult = ProcessBuckling(inputData);
if (bucklingResult.IsValid != true)
{
TraceLogger?.AddMessage(bucklingResult.Description, TraceLogStatuses.Error);
var result = new ForcesTupleResult
{
IsValid = false,
Description = $"Buckling result:\n{bucklingResult.Description}\n",
DesignForceTuple = new DesignForceTuple()
{
ForceTuple = newTuple,
LimitState = limitState,
CalcTerm = calcTerm
}
};
ndmResult.ForcesResultList.Add(result);
}
else
{
newTuple = CalculateBuckling(newTuple, bucklingResult);
TraceLogger?.AddMessage($"Force combination with considering of second order effects");
TraceLogger?.AddEntry(new TraceTablesFactory().GetByForceTuple(newTuple));
}
return newTuple;
}
private void GetForceResult(ForcesResults ndmResult, LimitStates limitState, CalcTerms calcTerm, List<INdm> ndms, IForceTuple newTuple)
{
var result = GetPrimitiveStrainMatrix(ndms, newTuple, Accuracy);
result.DesignForceTuple.LimitState = limitState;
result.DesignForceTuple.CalcTerm = calcTerm;
result.DesignForceTuple.ForceTuple = newTuple;
ndmResult.ForcesResultList.Add(result);
ActionToOutputResults?.Invoke(ndmResult);
}
private IForceTuple ProcessAccEccentricity(List<INdm> ndms, IForceTuple newTuple)
{
var accLogic = new AccidentalEccentricityLogic()
{
Length = CompressedMember.GeometryLength,
SizeX = ndms.Max(x => x.CenterX) - ndms.Min(x => x.CenterX),
SizeY = ndms.Max(x => x.CenterY) - ndms.Min(x => x.CenterY),
InitialForceTuple = newTuple,
};
if (TraceLogger is not null) { accLogic.TraceLogger = TraceLogger.GetSimilarTraceLogger(50); }
newTuple = accLogic.GetForceTuple();
return newTuple;
}
private IConcreteBucklingResult ProcessBuckling(BucklingInputData inputData)
{
IForceTuple resultTuple;
IForceTuple longTuple;
if (inputData.CalcTerm == CalcTerms.LongTerm)
{
longTuple = inputData.ForceTuple;
}
else
{
longTuple = GetLongTuple(inputData.Combination.DesignForces, inputData.LimitState);
}
longTuple = ProcessAccEccentricity(inputData.Ndms, longTuple);
var bucklingCalculator = GetBucklingCalculator(CompressedMember, inputData.LimitState, inputData.CalcTerm, inputData.ForceTuple, longTuple);
if (TraceLogger is not null)
{
bucklingCalculator.TraceLogger = TraceLogger.GetSimilarTraceLogger(50);
}
bucklingCalculator.Run();
var bucklingResult = bucklingCalculator.Result as IConcreteBucklingResult;
return bucklingResult;
}
private IForceTuple GetLongTuple(List<IDesignForceTuple> designForces, LimitStates limitState)
{
IForceTuple longTuple;
try
{
longTuple = designForces.Where(x => x.LimitState == limitState & x.CalcTerm == CalcTerms.LongTerm).First().ForceTuple;
}
catch (Exception)
{
longTuple = new ForceTuple();
}
return longTuple;
}
private IConcreteBucklingCalculator GetBucklingCalculator(ICompressedMember compressedMember, LimitStates limitStates, CalcTerms calcTerms, IForceTuple calcTuple, IForceTuple longTuple)
{
var options = new ConcreteBucklingOptions()
{
CompressedMember = compressedMember,
LimitState = limitStates,
CalcTerm = calcTerms,
CalcForceTuple = calcTuple,
LongTermTuple = longTuple,
Primitives = Primitives
};
var bucklingCalculator = new ConcreteBucklingCalculator(options, Accuracy);
return bucklingCalculator;
}
private ForceTuple CalculateBuckling(IForceTuple calcTuple, IConcreteBucklingResult bucklingResult)
{
var newTuple = calcTuple.Clone() as ForceTuple;
newTuple.Mx *= bucklingResult.EtaFactorAlongY;
newTuple.My *= bucklingResult.EtaFactorAlongX;
return newTuple;
}
private string CheckInputData()
{
string result = "";
try
{
NdmPrimitivesService.CheckPrimitives(Primitives);
}
catch (Exception ex)
{
result += ex;
}
if (ForceActions.Count == 0)
{
result += "Calculator does not contain any forces \n";
}
if (LimitStatesList.Count == 0)
{
result += "Calculator does not contain any limit states \n";
}
if (CalcTermsList.Count == 0)
{
result += "Calculator does not contain any duration \n";
}
return result;
}
public ForceCalculator(IForceTupleCalculator forceTupleCalculator)
{
this.forceTupleCalculator = forceTupleCalculator;
SetDefaultProperties();
}
public ForceCalculator() : this(new ForceTupleCalculator())
{
}
private void SetDefaultProperties()
{
ForceActions = new List<IForceAction>();
Primitives = new List<INdmPrimitive>();
CompressedMember = new CompressedMember()
{
Buckling = false
};
Accuracy = new Accuracy()
{
IterationAccuracy = 0.001d,
MaxIterationCount = 1000
};
LimitStatesList = new List<LimitStates>()
{
LimitStates.ULS,
LimitStates.SLS
};
CalcTermsList = new List<CalcTerms>()
{
CalcTerms.ShortTerm,
CalcTerms.LongTerm
};
}
private void GetCombinations()
{
ForceCombinationLists = new List<IForceCombinationList>();
foreach (var item in ForceActions)
{
ForceCombinationLists.Add(item.GetCombinations());
}
}
private IForcesTupleResult GetPrimitiveStrainMatrix(IEnumerable<INdm> ndmCollection, IForceTuple tuple, IAccuracy accuracy)
{
var inputData = new ForceTupleInputData()
{
NdmCollection = ndmCollection,
Tuple = tuple,
Accuracy = accuracy
};
var calculator = forceTupleCalculator.Clone() as IForceTupleCalculator;
calculator.InputData = inputData;
if (TraceLogger is not null)
{
calculator.TraceLogger = TraceLogger.GetSimilarTraceLogger();
}
calculator.Run();
return calculator.Result as IForcesTupleResult;
}
public object Clone()
{
var newCalculator = new ForceCalculator();
updateStrategy.Update(newCalculator, this);
return newCalculator;
}
}
}
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