using StructureHelperCommon.Infrastructures.Enums; using StructureHelperCommon.Infrastructures.Exceptions; using StructureHelperCommon.Models; using StructureHelperCommon.Models.Forces; using StructureHelperCommon.Models.Forces.Logics; using StructureHelperCommon.Models.Loggers; using StructureHelperCommon.Services.Forces; namespace StructureHelperLogics.Models.BeamShears { public class SumConcentratedForceLogic : ISumForceByShearLoadLogic { private ICoordinateByLevelLogic coordinateByLevelLogic; public IShiftTraceLogger? TraceLogger { get; set; } public LimitStates LimitState { get; set; } public CalcTerms CalcTerm { get; set; } public SumConcentratedForceLogic(ICoordinateByLevelLogic coordinateByLevelLogic, IShiftTraceLogger? traceLogger) { this.coordinateByLevelLogic = coordinateByLevelLogic; TraceLogger = traceLogger; } public SumConcentratedForceLogic(IShiftTraceLogger? traceLogger) { TraceLogger = traceLogger; } public IForceTuple GetSumShearForce(IBeamSpanLoad beamShearLoad, double startCoord, double endCoord) { TraceLogger?.AddMessage(LoggerStrings.LogicType(this), TraceLogStatuses.Service); if (beamShearLoad is IConcentratedForce concentratedForce) { InitializeStrategies(); IForceTuple sumForce = GetConcentratedForceSum(concentratedForce, startCoord, endCoord); return sumForce; } else { throw new StructureHelperException(ErrorStrings.ObjectTypeIsUnknownObj(beamShearLoad) + ": beam shear load is not concentrated force"); } } private void InitializeStrategies() { coordinateByLevelLogic ??= new CoordinateByLevelLogic(TraceLogger); } private IForceTuple GetConcentratedForceSum(IConcentratedForce concentratedForce, double startCoord, double endCoord) { TraceLogger?.AddMessage($"Concentrated force Name = {concentratedForce.Name}, Value = {concentratedForce.ForceValue.Qy}(N/m) "); if (concentratedForce.ForceCoordinate > endCoord) { TraceLogger?.AddMessage($"Force coordinate {concentratedForce.ForceCoordinate}(m) is bigger than section end {endCoord}(m), so total load is zero"); return new ForceTuple(Guid.NewGuid()); } return GetConcentratedForce(concentratedForce, startCoord, endCoord); } private IForceTuple GetConcentratedForce(IConcentratedForce concentratedForce, double startCoord, double endCoord) { IForceTuple totalLoad; double limitCoordinate = startCoord; if (concentratedForce.ForceCoordinate >= startCoord) { limitCoordinate = coordinateByLevelLogic.GetCoordinate(startCoord, endCoord, concentratedForce.RelativeLoadLevel); } if (concentratedForce.ForceCoordinate < limitCoordinate) { double loadFactor = GetLoadFactor(concentratedForce); double sumFactor = concentratedForce.LoadRatio * loadFactor; totalLoad = ForceTupleService.MultiplyTupleByFactor(concentratedForce.ForceValue, sumFactor); TraceLogger?.AddMessage($"Total load Q,tot = {concentratedForce.ForceValue.Qy}(N) * {concentratedForce.LoadRatio} * {loadFactor} = {totalLoad}(N)"); } else { TraceLogger?.AddMessage($"Force coordinate {concentratedForce.ForceCoordinate}(m) is bigger than limit coordinate {limitCoordinate}(m), so total load is zero"); totalLoad = new ForceTuple(Guid.NewGuid()); } return totalLoad; } private double GetLoadFactor(IBeamSpanLoad spanLoad) { var getFactorLogic = new GetFactorByFactoredCombinationProperty() { CombinationProperty = spanLoad.CombinationProperty, LimitState = LimitState, CalcTerm = CalcTerm }; return getFactorLogic.GetFactor(); } } }