avpon/StructureHelper
1
0
Fork 0
Code Issues Pull Requests Actions Packages Projects Releases Wiki Activity

Extract sum shear force logic

Browse Source
This commit is contained in:
Evgeny Redikultsev
2025-03-22 15:02:20 +05:00
parent b2027f92dd
commit aec85e37f5
20 changed files with 753 additions and 109 deletions
Download Patch File Download Diff File Expand all files Collapse all files

44
StructureHelperLogics/Models/BeamShears/Logics/CoordinateByLevelLogic.cs Normal file
View File

@@ -0,0 +1,44 @@
using StructureHelperCommon.Infrastructures.Exceptions;
using StructureHelperCommon.Models;
using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using System.Threading.Tasks;
namespace StructureHelperLogics.Models.BeamShears
{
public class CoordinateByLevelLogic : ICoordinateByLevelLogic
{
public IShiftTraceLogger? TraceLogger { get; set; }
public CoordinateByLevelLogic(IShiftTraceLogger? traceLogger)
{
TraceLogger = traceLogger;
}
public double GetCoordinate(double startCoord, double endCoord, double relativeLevel)
{
CheckRelativeLevel(relativeLevel);
double delta = endCoord - startCoord;
double coordinate = startCoord + delta * (relativeLevel + 0.5d);
return coordinate;
}
private void CheckRelativeLevel(double relativeLevel)
{
if (relativeLevel > 0.5d)
{
string errorString = ErrorStrings.IncorrectValue + ": relative level must not be greater than 0.5";
TraceLogger?.AddMessage(errorString, TraceLogStatuses.Error);
throw new StructureHelperException(errorString);
}
if (relativeLevel < -0.5d)
{
string errorString = ErrorStrings.IncorrectValue + ": relative level must not be less than -0.5";
TraceLogger?.AddMessage(errorString, TraceLogStatuses.Error);
throw new StructureHelperException(errorString);
}
}
}
}

64
StructureHelperLogics/Models/BeamShears/Logics/GetDirectShearForceLogic.cs Normal file
View File

@@ -0,0 +1,64 @@
using StructureHelperCommon.Models;
using StructureHelperCommon.Models.Forces;
using StructureHelperCommon.Models.Loggers;
//Copyright (c) 2025 Redikultsev Evgeny, Ekaterinburg, Russia
//All rights reserved.
namespace StructureHelperLogics.Models.BeamShears
{
/// <inheritdoc/>
public class GetDirectShearForceLogic : IGetDirectShearForceLogic
{
ISumForceByShearLoadLogic summaryForceLogic;
/// <inheritdoc/>
public IShiftTraceLogger? TraceLogger { get; set; }
public IBeamShearAxisAction AxisAction { get; private set; }
public IInclinedSection InclinedSection { get; private set; }
public GetDirectShearForceLogic(
IBeamShearAxisAction axisAction,
IInclinedSection inclinedSection,
IShiftTraceLogger? traceLogger)
{
AxisAction = axisAction;
InclinedSection = inclinedSection;
TraceLogger = traceLogger;
}
public GetDirectShearForceLogic(
IBeamShearAxisAction axisAction,
IInclinedSection inclinedSection,
IShiftTraceLogger? traceLogger,
ISumForceByShearLoadLogic summaryForceLogic)
{
this.summaryForceLogic = summaryForceLogic;
AxisAction = axisAction;
InclinedSection = inclinedSection;
TraceLogger = traceLogger;
}
/// <inheritdoc/>
public double CalculateShearForce()
{
TraceLogger?.AddMessage(LoggerStrings.LogicType(this), TraceLogStatuses.Service);
InitializeStrategies();
double supportShearForce = AxisAction.SupportShearForce;
TraceLogger?.AddMessage($"Shear force at support Qmax = {supportShearForce}(N)");
TraceLogger?.AddMessage($"Start of inclined section a,start = {InclinedSection.StartCoord}(m)");
TraceLogger?.AddMessage($"End of inclined section a,end = {InclinedSection.EndCoord}(m)");
double summarySpanShearForce = AxisAction.ShearLoads
.Sum(load => summaryForceLogic.GetSumShearForce(load, InclinedSection.StartCoord, InclinedSection.EndCoord));
TraceLogger?.AddMessage($"Summary span force deltaQ = {summarySpanShearForce}(N)");
double shearForce = supportShearForce + summarySpanShearForce;
TraceLogger?.AddMessage($"Summary shear force at the end of inclined section Q = {shearForce}(N)");
return shearForce;
}
private void InitializeStrategies()
{
summaryForceLogic ??= new SumForceByShearLoadLogic(TraceLogger);
}
}
}

106
StructureHelperLogics/Models/BeamShears/Logics/GetSumForceByShearActionLogic.cs
View File

@@ -1,106 +0,0 @@
using StructureHelperCommon.Infrastructures.Exceptions;
using StructureHelperCommon.Models;
using StructureHelperCommon.Models.Forces;
using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using System.Threading.Tasks;
namespace StructureHelperLogics.Models.BeamShears
{
public class GetSumForceByShearActionLogic : IGetSumForceByShearActionLogic
{
public IShiftTraceLogger? TraceLogger { get; set; }
public GetSumForceByShearActionLogic(IShiftTraceLogger? traceLogger)
{
TraceLogger = traceLogger;
}
public double GetSumShearForce(IBeamShearLoad beamShearAction, double startCoord, double endCoord)
{
if (beamShearAction is IDistributedLoad distributedLoad)
{
return GetDistributedLoadSum(distributedLoad, startCoord, endCoord);
}
else if (beamShearAction is IConcentratedForce concenratedForce)
{
return GetConcentratedForceSum(concenratedForce, startCoord, endCoord);
}
else
{
throw new StructureHelperException(ErrorStrings.ObjectTypeIsUnknownObj(beamShearAction));
}
}
private double GetConcentratedForceSum(IConcentratedForce concentratedForce, double startCoord, double endCoord)
{
TraceLogger?.AddMessage($"Concentrated force Name = {concentratedForce.Name}, Value = {concentratedForce.ForceValue}(N/m) ");
if (concentratedForce.ForceCoordinate > endCoord)
{
TraceLogger?.AddMessage($"Force coordinate {concentratedForce.ForceCoordinate}(m) is bigger than section end {endCoord}(m), so total load is zero");
return 0;
}
double totalLoad;
double limitCoordinate = startCoord;
if (concentratedForce.ForceCoordinate >= startCoord)
{
limitCoordinate = GetCoordinateByLevel(startCoord, endCoord, concentratedForce.RelativeLoadLevel);
}
if (concentratedForce.ForceCoordinate < limitCoordinate)
{
totalLoad = concentratedForce.ForceValue * concentratedForce.LoadRatio;
TraceLogger?.AddMessage($"Total load Q,tot = {concentratedForce.ForceValue}(N) * {concentratedForce.LoadRatio} = {totalLoad}(N)");
}
else
{
TraceLogger?.AddMessage($"Force coordinate {concentratedForce.ForceCoordinate}(m) is bigger than limit coordinate {limitCoordinate}(m), so total load is zero");
totalLoad = 0d;
}
return totalLoad;
}
private double GetDistributedLoadSum(IDistributedLoad distributedLoad, double startCoord, double endCoord)
{
TraceLogger?.AddMessage($"Uniformly distributed load Name = {distributedLoad.Name}, Value = {distributedLoad.LoadValue}(N/m) ");
double loadStartCoord = Math.Max(distributedLoad.StartCoordinate, 0d);
if (loadStartCoord > endCoord)
{
TraceLogger?.AddMessage($"Load start coordinate {loadStartCoord}(m) is bigger than section end {endCoord}(m), so total load is zero");
return 0d;
}
double endCoordByLevel = GetCoordinateByLevel(startCoord, endCoord, distributedLoad.RelativeLoadLevel);
double loadEndCoord = Math.Min(distributedLoad.EndCoordinate, endCoordByLevel);
double loadLength = loadEndCoord - loadStartCoord;
TraceLogger?.AddMessage($"Total length L,tot = {loadEndCoord}(m) - {loadStartCoord}(m) = {loadLength}(m)");
double totalLoad = distributedLoad.LoadValue * distributedLoad.LoadRatio * loadLength;
TraceLogger?.AddMessage($"Total load Q,tot = {distributedLoad.LoadValue}(N/m) * {distributedLoad.LoadRatio} * {loadLength}(m) = {totalLoad}(N)");
return totalLoad;
}
private double GetCoordinateByLevel(double startCoord, double endCoord, double relativeLevel)
{
CheckRelativeLevel(relativeLevel);
double delta = endCoord - startCoord;
double coordinate = startCoord + delta * (relativeLevel + 0.5d);
return coordinate;
}
private void CheckRelativeLevel(double relativeLevel)
{
if (relativeLevel > 0.5d)
{
string errorString = ErrorStrings.IncorrectValue + ": relative level must not be greater than 0.5";
TraceLogger?.AddMessage(errorString, TraceLogStatuses.Error);
throw new StructureHelperException(errorString);
}
if (relativeLevel < -0.5d)
{
string errorString = ErrorStrings.IncorrectValue + ": relative level must not be less than -0.5";
TraceLogger?.AddMessage(errorString, TraceLogStatuses.Error);
throw new StructureHelperException(errorString);
}
}
}
}

14
StructureHelperLogics/Models/BeamShears/Logics/ICoordinateByLevelLogic.cs Normal file
View File

@@ -0,0 +1,14 @@
using StructureHelperCommon.Infrastructures.Interfaces;
using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using System.Threading.Tasks;
namespace StructureHelperLogics.Models.BeamShears
{
public interface ICoordinateByLevelLogic : ILogic
{
double GetCoordinate(double startCoord, double endCoord, double relativeLevel);
}
}

17
StructureHelperLogics/Models/BeamShears/Logics/IGetDirectShearForceLogic.cs Normal file
View File

@@ -0,0 +1,17 @@
using StructureHelperCommon.Infrastructures.Interfaces;
using StructureHelperCommon.Models.Forces;
namespace StructureHelperLogics.Models.BeamShears
{
/// <summary>
/// Implements logic of calculating shear force without considering term and limit state
/// </summary>
public interface IGetDirectShearForceLogic : ILogic
{
/// <summary>
/// Returns value of shear force at the end of inclined section
/// </summary>
/// <returns>Value of shear force at the end of inclined section</returns>
double CalculateShearForce();
}
}

15
StructureHelperLogics/Models/BeamShears/Logics/IShearForceLogic.cs Normal file
View File

@@ -0,0 +1,15 @@
using StructureHelperCommon.Infrastructures.Interfaces;
using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using System.Threading.Tasks;
namespace StructureHelperLogics.Models.BeamShears
{
internal interface IShearForceLogic : ILogic
{
double GetShearForce();
}
}

18
StructureHelperLogics/Models/BeamShears/Logics/IShearForceLogicInputData.cs Normal file
View File

@@ -0,0 +1,18 @@
using StructureHelperCommon.Infrastructures.Enums;
using StructureHelperCommon.Models.Forces;
using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using System.Threading.Tasks;
namespace StructureHelperLogics.Models.BeamShears
{
public interface IShearForceLogicInputData
{
IBeamShearAxisAction AxisAction {get;set;}
IInclinedSection InclinedSection { get; set; }
LimitStates LimitState { get; set; }
CalcTerms CalcTerm { get; set; }
}
}

6
StructureHelperLogics/Models/BeamShears/Logics/IGetSumForceByShearActionLogic.cs → StructureHelperLogics/Models/BeamShears/Logics/ISumForceByShearLoadLogic.cs
View File

@@ -11,15 +11,15 @@ namespace StructureHelperLogics.Models.BeamShears
/// <summary>
/// Implement logic for obtaining of summary force of action from start to end
/// </summary>
public interface IGetSumForceByShearActionLogic : ILogic
public interface ISumForceByShearLoadLogic : ILogic
{
/// <summary>
/// Returns summary force of action from start to end
/// </summary>
/// <param name="beamShearAction">Source action</param>
/// <param name="beamShearLoad">Source action</param>
/// <param name="startCoord">Coordinate of start point, m</param>
/// <param name="endCoord">Coordinate of end point, m</param>
/// <returns>Summary force, N</returns>
double GetSumShearForce(IBeamShearLoad beamShearAction, double startCoord, double endCoord);
double GetSumShearForce(IBeamShearLoad beamShearLoad, double startCoord, double endCoord);
}
}

55
StructureHelperLogics/Models/BeamShears/Logics/ShearForceLogic.cs Normal file
View File

@@ -0,0 +1,55 @@
using StructureHelperCommon.Models;
using StructureHelperCommon.Models.Forces;
using StructureHelperCommon.Models.Forces.Logics;
using StructureHelperCommon.Models.Loggers;
namespace StructureHelperLogics.Models.BeamShears
{
public class ShearForceLogic : IShearForceLogic
{
private IGetLoadFactor getFactorLogic;
private IGetDirectShearForceLogic getDirectShearForceLogic;
public IShearForceLogicInputData InputData { get;}
public IShiftTraceLogger? TraceLogger { get; set; }
public ShearForceLogic(IShearForceLogicInputData inputData, IShiftTraceLogger? traceLogger)
{
InputData = inputData;
TraceLogger = traceLogger;
}
public ShearForceLogic(
IShearForceLogicInputData inputData,
IShiftTraceLogger? traceLogger,
IGetLoadFactor getFactorLogic,
IGetDirectShearForceLogic getDirectShearForceLogic)
{
InputData = inputData;
TraceLogger = traceLogger;
this.getFactorLogic = getFactorLogic;
this.getDirectShearForceLogic = getDirectShearForceLogic;
}
public double GetShearForce()
{
TraceLogger?.AddMessage(LoggerStrings.LogicType(this), TraceLogStatuses.Service);
InitializeStrategies();
double factor = getFactorLogic.GetFactor();
double directShearForce = getDirectShearForceLogic.CalculateShearForce();
double shearForce = directShearForce * factor;
return shearForce;
}
private void InitializeStrategies()
{
getFactorLogic ??= new GetFactorByFactoredCombinationProperty()
{
CombinationProperty = InputData.AxisAction.FactoredCombinationProperty,
LimitState = InputData.LimitState,
CalcTerm = InputData.CalcTerm
};
getDirectShearForceLogic ??= new GetDirectShearForceLogic(InputData.AxisAction, InputData.InclinedSection, TraceLogger);
}
}
}

18
StructureHelperLogics/Models/BeamShears/Logics/ShearForceLogicInputData.cs Normal file
View File

@@ -0,0 +1,18 @@
using StructureHelperCommon.Infrastructures.Enums;
using StructureHelperCommon.Models.Forces;
using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using System.Threading.Tasks;
namespace StructureHelperLogics.Models.BeamShears.Logics
{
public class ShearForceLogicInputData : IShearForceLogicInputData
{
public IBeamShearAxisAction AxisAction { get; set; }
public IInclinedSection InclinedSection { get; set; }
public LimitStates LimitState { get; set; }
public CalcTerms CalcTerm { get; set; }
}
}

77
StructureHelperLogics/Models/BeamShears/Logics/SumConcentratedForceLogic.cs Normal file
View File

@@ -0,0 +1,77 @@
using StructureHelperCommon.Infrastructures.Exceptions;
using StructureHelperCommon.Models;
using StructureHelperCommon.Models.Forces;
using StructureHelperCommon.Models.Loggers;
namespace StructureHelperLogics.Models.BeamShears
{
public class SumConcentratedForceLogic : ISumForceByShearLoadLogic
{
private ICoordinateByLevelLogic coordinateByLevelLogic;
public IShiftTraceLogger? TraceLogger { get; set; }
public SumConcentratedForceLogic(ICoordinateByLevelLogic coordinateByLevelLogic, IShiftTraceLogger? traceLogger)
{
this.coordinateByLevelLogic = coordinateByLevelLogic;
TraceLogger = traceLogger;
}
public SumConcentratedForceLogic(IShiftTraceLogger? traceLogger)
{
TraceLogger = traceLogger;
}
public double GetSumShearForce(IBeamShearLoad beamShearLoad, double startCoord, double endCoord)
{
TraceLogger?.AddMessage(LoggerStrings.LogicType(this), TraceLogStatuses.Service);
if (beamShearLoad is IConcentratedForce concentratedForce)
{
InitializeStrategies();
double 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 double GetConcentratedForceSum(IConcentratedForce concentratedForce, double startCoord, double endCoord)
{
TraceLogger?.AddMessage($"Concentrated force Name = {concentratedForce.Name}, Value = {concentratedForce.ForceValue}(N/m) ");
if (concentratedForce.ForceCoordinate > endCoord)
{
TraceLogger?.AddMessage($"Force coordinate {concentratedForce.ForceCoordinate}(m) is bigger than section end {endCoord}(m), so total load is zero");
return 0;
}
return GetConcentratedForce(concentratedForce, startCoord, endCoord);
}
private double GetConcentratedForce(IConcentratedForce concentratedForce, double startCoord, double endCoord)
{
double totalLoad;
double limitCoordinate = startCoord;
if (concentratedForce.ForceCoordinate >= startCoord)
{
limitCoordinate = coordinateByLevelLogic.GetCoordinate(startCoord, endCoord, concentratedForce.RelativeLoadLevel);
}
if (concentratedForce.ForceCoordinate < limitCoordinate)
{
totalLoad = concentratedForce.ForceValue * concentratedForce.LoadRatio;
TraceLogger?.AddMessage($"Total load Q,tot = {concentratedForce.ForceValue}(N) * {concentratedForce.LoadRatio} = {totalLoad}(N)");
}
else
{
TraceLogger?.AddMessage($"Force coordinate {concentratedForce.ForceCoordinate}(m) is bigger than limit coordinate {limitCoordinate}(m), so total load is zero");
totalLoad = 0d;
}
return totalLoad;
}
}
}

62
StructureHelperLogics/Models/BeamShears/Logics/SumDistributedLoadLogic.cs Normal file
View File

@@ -0,0 +1,62 @@
using StructureHelperCommon.Infrastructures.Exceptions;
using StructureHelperCommon.Models;
using StructureHelperCommon.Models.Forces;
using StructureHelperCommon.Models.Loggers;
namespace StructureHelperLogics.Models.BeamShears
{
public class SumDistributedLoadLogic : ISumForceByShearLoadLogic
{
private ICoordinateByLevelLogic coordinateByLevelLogic;
public IShiftTraceLogger? TraceLogger { get; set; }
public SumDistributedLoadLogic(IShiftTraceLogger? traceLogger)
{
TraceLogger = traceLogger;
}
public SumDistributedLoadLogic(ICoordinateByLevelLogic coordinateByLevelLogic, IShiftTraceLogger? traceLogger)
{
this.coordinateByLevelLogic = coordinateByLevelLogic;
TraceLogger = traceLogger;
}
public double GetSumShearForce(IBeamShearLoad beamShearLoad, double startCoord, double endCoord)
{
TraceLogger?.AddMessage(LoggerStrings.LogicType(this), TraceLogStatuses.Service);
if (beamShearLoad is IDistributedLoad distributedLoad)
{
InitializeStrategies();
double sumForce = GetDistributedLoadSum(distributedLoad, startCoord, endCoord);
return sumForce;
}
else
{
throw new StructureHelperException(ErrorStrings.ObjectTypeIsUnknownObj(beamShearLoad) + ": beam shear load is not distributed load");
}
}
private void InitializeStrategies()
{
coordinateByLevelLogic ??= new CoordinateByLevelLogic(TraceLogger);
}
private double GetDistributedLoadSum(IDistributedLoad distributedLoad, double startCoord, double endCoord)
{
TraceLogger?.AddMessage($"Uniformly distributed load Name = {distributedLoad.Name}, Value = {distributedLoad.LoadValue}(N/m) ");
double loadStartCoord = Math.Max(distributedLoad.StartCoordinate, 0d);
if (loadStartCoord > endCoord)
{
TraceLogger?.AddMessage($"Load start coordinate {loadStartCoord}(m) is bigger than section end {endCoord}(m), so total load is zero");
return 0d;
}
double endCoordByLevel = coordinateByLevelLogic.GetCoordinate(startCoord, endCoord, distributedLoad.RelativeLoadLevel);
double loadEndCoord = Math.Min(distributedLoad.EndCoordinate, endCoordByLevel);
double loadLength = loadEndCoord - loadStartCoord;
TraceLogger?.AddMessage($"Total length L,tot = {loadEndCoord}(m) - {loadStartCoord}(m) = {loadLength}(m)");
double totalLoad = distributedLoad.LoadValue * distributedLoad.LoadRatio * loadLength;
TraceLogger?.AddMessage($"Total load Q,tot = {distributedLoad.LoadValue}(N/m) * {distributedLoad.LoadRatio} * {loadLength}(m) = {totalLoad}(N)");
return totalLoad;
}
}
}

67
StructureHelperLogics/Models/BeamShears/Logics/SumForceByShearLoadLogic.cs Normal file
View File

@@ -0,0 +1,67 @@
using StructureHelperCommon.Infrastructures.Exceptions;
using StructureHelperCommon.Models;
using StructureHelperCommon.Models.Forces;
using StructureHelperCommon.Models.Loggers;
using StructureHelperLogics.Models.BeamShears.Logics;
namespace StructureHelperLogics.Models.BeamShears
{
public class SumForceByShearLoadLogic : ISumForceByShearLoadLogic
{
private ISumForceByShearLoadLogic sumDistributedLoadLogic;
private ISumForceByShearLoadLogic sumConcentratedForceLogic;
public IShiftTraceLogger? TraceLogger { get; set; }
public SumForceByShearLoadLogic(IShiftTraceLogger? traceLogger)
{
TraceLogger = traceLogger;
}
public SumForceByShearLoadLogic(
ISumForceByShearLoadLogic sumDistributedLoadLogic,
ISumForceByShearLoadLogic sumConcentratedForceLogic,
IShiftTraceLogger? traceLogger)
{
this.sumDistributedLoadLogic = sumDistributedLoadLogic;
this.sumConcentratedForceLogic = sumConcentratedForceLogic;
TraceLogger = traceLogger;
}
public double GetSumShearForce(IBeamShearLoad beamShearLoad, double startCoord, double endCoord)
{
TraceLogger?.AddMessage(LoggerStrings.LogicType(this), TraceLogStatuses.Service);
if (beamShearLoad is IDistributedLoad distributedLoad)
{
TraceLogger?.AddMessage($"Load is uniformly distributed load");
double sumDistributed = GetDistributedLoadSum(distributedLoad, startCoord, endCoord);
return sumDistributed;
}
else if (beamShearLoad is IConcentratedForce concenratedForce)
{
TraceLogger?.AddMessage($"Load is concentrated force");
return GetConcentratedForceSum(concenratedForce, startCoord, endCoord);
}
else
{
throw new StructureHelperException(ErrorStrings.ObjectTypeIsUnknownObj(beamShearLoad));
}
}
private double GetConcentratedForceSum(IConcentratedForce concenratedForce, double startCoord, double endCoord)
{
sumConcentratedForceLogic ??= new SumConcentratedForceLogic(TraceLogger);
double sumForce = sumConcentratedForceLogic.GetSumShearForce(concenratedForce, startCoord, endCoord);
TraceLogger?.AddMessage($"Sum of uniformly distributed load Qud = {sumForce}(N)");
return sumForce;
}
private double GetDistributedLoadSum(IDistributedLoad distributedLoad, double startCoord, double endCoord)
{
sumDistributedLoadLogic ??= new SumDistributedLoadLogic(TraceLogger);
double sumForce = sumDistributedLoadLogic.GetSumShearForce(distributedLoad, startCoord, endCoord);
TraceLogger?.AddMessage($"Sum of concentrated force Qcf = {sumForce}(N)");
return sumForce;
}
}
}