134 lines
6.2 KiB
C#
134 lines
6.2 KiB
C#
using LoaderCalculator;
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using LoaderCalculator.Data.Matrix;
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using LoaderCalculator.Data.ResultData;
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using LoaderCalculator.Data.SourceData;
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using StructureHelperCommon.Models;
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using StructureHelperCommon.Models.Calculators;
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using StructureHelperCommon.Models.Loggers;
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namespace StructureHelperLogics.NdmCalculations.Analyses.ByForces
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{
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public class ForceTupleCalculator : IForceTupleCalculator, IHasActionByResult
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{
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public IForceTupleInputData InputData { get; set; }
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public string Name { get; set; }
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public IResult Result { get; private set; }
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public Action<IResult> ActionToOutputResults { get; set; }
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public IShiftTraceLogger? TraceLogger { get; set; }
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public ForceTupleCalculator(IForceTupleInputData inputData)
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{
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InputData = inputData;
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}
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public ForceTupleCalculator()
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{
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}
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public void Run()
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{
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Result = CalculateResult();
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}
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private IForcesTupleResult CalculateResult()
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{
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TraceLogger?.AddMessage($"Calculator type: {GetType()}", TraceLogStatuses.Service);
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TraceLogger?.AddMessage($"Calculator logic based on calculating strain in plain section by elementary parts of finished size");
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var ndmCollection = InputData.NdmCollection;
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TraceLogger?.AddMessage($"Collection of elementary parts contains {ndmCollection.Count()} parts");
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TraceLogger?.AddMessage($"Summary area of elementary part collection = {ndmCollection.Sum(x => x.Area * x.StressScale)}", TraceLogStatuses.Service);
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TraceLogger?.AddMessage($"Minimum x = {ndmCollection.Min(x => x.CenterX)}", TraceLogStatuses.Debug);
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TraceLogger?.AddMessage($"Maximum x = {ndmCollection.Max(x => x.CenterX)}", TraceLogStatuses.Debug);
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TraceLogger?.AddMessage($"Minimum y = {ndmCollection.Min(x => x.CenterY)}", TraceLogStatuses.Debug);
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TraceLogger?.AddMessage($"Maximum y = {ndmCollection.Max(x => x.CenterY)}", TraceLogStatuses.Debug);
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var tuple = InputData.Tuple;
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var accuracy = InputData.Accuracy;
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TraceLogger?.AddMessage($"Input force combination");
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TraceLogger?.AddEntry(new TraceTablesFactory().GetByForceTuple(tuple));
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var mx = tuple.Mx;
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var my = tuple.My;
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var nz = tuple.Nz;
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TraceLogger?.AddMessage($"Required accuracy rate {accuracy.IterationAccuracy}");
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TraceLogger?.AddMessage($"Maximum iteration count {accuracy.MaxIterationCount}");
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try
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{
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var loaderData = new LoaderOptions
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{
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Preconditions = new Preconditions
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{
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ConditionRate = accuracy.IterationAccuracy,
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MaxIterationCount = accuracy.MaxIterationCount,
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StartForceMatrix = new ForceMatrix { Mx = mx, My = my, Nz = nz }
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},
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ActionToOutputResults = ShowResultToTrace,
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NdmCollection = ndmCollection
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};
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var calculator = new Calculator();
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TraceLogger?.AddMessage($"Calculation is started", TraceLogStatuses.Debug);
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calculator.Run(loaderData, new CancellationToken());
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TraceLogger?.AddMessage($"Calculation result is obtained", TraceLogStatuses.Debug);
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var calcResult = calculator.Result;
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if (calcResult.AccuracyRate <= accuracy.IterationAccuracy)
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{
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TraceLogger?.AddMessage($"Analisis is done succsesfully");
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TraceLogger?.AddMessage($"Current accuracy {calcResult.AccuracyRate} has acheived in {calcResult.IterationCounter} iteration", TraceLogStatuses.Debug);
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return new ForcesTupleResult()
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{
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IsValid = true,
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Description = LoggerStrings.CalculationHasDone,
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LoaderResults = calcResult
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};
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}
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else
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{
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TraceLogger?.AddMessage($"Required accuracy rate has not achived", TraceLogStatuses.Error);
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TraceLogger?.AddMessage($"Current accuracy {calcResult.AccuracyRate}, {calcResult.IterationCounter} iteration has done", TraceLogStatuses.Warning);
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return new ForcesTupleResult()
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{
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IsValid = false,
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Description = "Required accuracy rate has not achived",
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LoaderResults = calcResult
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};
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}
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}
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catch (Exception ex)
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{
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TraceLogger?.AddMessage($"Critical error ocured during calculation\n{ex}", TraceLogStatuses.Error);
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var result = new ForcesTupleResult()
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{
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IsValid = false
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};
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if (ex.Message == "Calculation result is not valid: stiffness matrix is equal to zero")
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{
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TraceLogger?.AddMessage($"Stiffness matrix is equal to zero\nProbably section was collapsed", TraceLogStatuses.Error);
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result.Description = "Stiffness matrix is equal to zero\nProbably section was collapsed";
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}
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else
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{
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result.Description = $"Error is appeared due to analysis. Error: {ex}";
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}
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return result;
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}
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}
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public object Clone()
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{
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var newItem = new ForceTupleCalculator();
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return newItem;
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}
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private static void ShowResultToConsole(ILoaderResults result)
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{
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var strain = result.StrainMatrix;
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//MessageBox.Show($" Текущие результаты в {result.IterationCounter} итерации:");
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}
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private void ShowResultToTrace(ILoaderResults result)
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{
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var strain = result.StrainMatrix;
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TraceLogger?.AddMessage($"Iteration {result.IterationCounter}, current accuracy rate {result.AccuracyRate}", TraceLogStatuses.Debug,100);
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}
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}
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}
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