Beispiel #1
0
        public override void TraverseTestBench(CyPhy.TestBenchType testBenchBase)
        {
            CyPhy.BlastTestBench testBench = testBenchBase as CyPhy.BlastTestBench;
            if (testBench == null)
            {
                testBench = CyPhyClasses.BlastTestBench.Cast(testBenchBase.Impl);
            }

            base.TraverseTestBench(testBenchBase);

            foreach (var item in testBench.Children.BlastComputation2MetricCollection)
            {
                CyPhy.BlastComputationType cadcomputation = item.SrcEnds.BlastComputationType;

                TBComputation tbcomputation = new TBComputation();
                tbcomputation.MetricID = item.DstEnds.Metric.ID;
                if (cadcomputation is CyPhy.MaxHorizonalVelocity)
                {
                    tbcomputation.ComputationType = TBComputation.Type.MAXHORIZONALVELOCITY;
                }
                else if (cadcomputation is CyPhy.MaxVerticalJump)
                {
                    tbcomputation.ComputationType = TBComputation.Type.MAXVERTICALJUMP;
                }
                else if (cadcomputation is CyPhy.MaxVerticalVelocity)
                {
                    tbcomputation.ComputationType = TBComputation.Type.MAXVERTICALVELOCITY;
                }
                tbcomputation.RequestedValueType = "";

                Computations.Add(tbcomputation);
            }

            int predefinedCnt = testBench.Children.PredefinedBlastSuiteCollection.Count();
            int customCnt     = testBench.Children.BlastModelCollection.Count();

            if (predefinedCnt > 0)
            {
                if (predefinedCnt > 1)
                {
                    Logger.Instance.AddLogMessage("Blast testbench can only have at most 1 predefined blast suite.", Severity.Error);
                    return;
                }

                if (customCnt > 0)
                {
                    Logger.Instance.AddLogMessage("Blast testbench can not have both predefined and custom blast suite.", Severity.Error);
                    return;
                }
            }

            // reference plane
            if (testBench.Children.ReferencePlaneCollection.Any())
            {
                if (testBench.Children.ReferencePlaneCollection.First().Attributes.ReferencePlaneType == 0)
                {
                    referencePlaneType = Survivability.ReferencePlaneTypeEnum.Ground;
                }
                else
                {
                    referencePlaneType = Survivability.ReferencePlaneTypeEnum.Waterline;
                }
            }

            Survivability.BlastConfig.Analysis blastAnalysis = new Survivability.BlastConfig.Analysis();
            blastAnalysis.ID = AnalysisID;            //blastAnalysis.ID = testBench.ID;

            blastAnalysis.numDisplayTimeSteps = testBench.Attributes.DisplayTimeSteps;
            blastAnalysis.duration_seconds    = testBench.Attributes.Duration;

            if (predefinedCnt > 0)
            {
                blastAnalysis.suiteName = testBench.Children.PredefinedBlastSuiteCollection.First().Attributes.BlastSuiteName;
            }

            if (customCnt > 0)
            {
                blastAnalysis.suiteName = testBench.Children.BlastModelCollection.First().Attributes.BlastSuiteName;
            }

            blastAnalysis.tier   = (int)testBench.Attributes.BlastTier + 1;    // starts at 0
            blastConfig.analysis = blastAnalysis;

            string stepFormat;

            if (blastAnalysis.tier > 1)
            {
                stepFormat = "AP203_E2_Separate_Part_Files";
            }
            else
            {
                stepFormat = "AP203_E2_Single_File";
            }

            if (!STEP_DataExchangeFormats.Contains(stepFormat, StringComparer.CurrentCultureIgnoreCase))
            {
                STEP_DataExchangeFormats.Add(stepFormat);
            }

            // blast threat
            if (customCnt > 0)
            {
                CyPhy.BlastModel blastSuite = testBench.Children.BlastModelCollection.First();
                if (!blastSuite.Children.BlastThreatCollection.Any())
                {
                    Logger.Instance.AddLogMessage("Custom blast testbench must contain a blast threat within a blast suite.", Severity.Error);
                    return;
                }

                if (!blastSuite.Children.ChargeLocationCollection.Any())
                {
                    Logger.Instance.AddLogMessage("Custom blast testbench must contain a charge location within a blast suite.", Severity.Error);
                    return;
                }

                CyPhy.BlastThreat threat = blastSuite.Children.BlastThreatCollection.First();
                Survivability.BlastConfig.BlastThreat configThreat = new Survivability.BlastConfig.BlastThreat();
                configThreat.burialDepth_meters = threat.Attributes.ThreatBurialDepth;
                configThreat.chargeSize_kgOfTNT = threat.Attributes.TNTChargeSize;
                int tTypeint = (int)threat.Attributes.ThreatType;
                configThreat.type = (Survivability.BlastConfig.BlastThreatTypeEnum)tTypeint;


                Survivability.BlastConfig.Shape shape = new Survivability.BlastConfig.Shape();
                shape.height_meters = threat.Attributes.ThreatShapeHeight;
                shape.radius_meters = threat.Attributes.ThreatShapeRadius;
                int sTypeint = (int)threat.Attributes.ThreatShapeType;
                shape.type         = (Survivability.BlastConfig.Shape.ShapeTypeEnum)sTypeint;
                configThreat.shape = shape;

                CyPhy.ChargeLocation loc = blastSuite.Children.ChargeLocationCollection.First();
                Survivability.BlastConfig.ChargeLocation configChargeLoc = new Survivability.BlastConfig.ChargeLocation();
                configChargeLoc.x_meters    = loc.Attributes.X;
                configChargeLoc.y_meters    = loc.Attributes.Y;
                configChargeLoc.z_meters    = loc.Attributes.Z;
                configThreat.chargeLocation = configChargeLoc;

                blastConfig.blastThreat = configThreat;
            }
        }
Beispiel #2
0
        public override void TraverseTestBench(CyPhy.TestBenchType testBenchBase)
        {
            string stepFormat = "AP203_E2_Single_File";

            if (!STEP_DataExchangeFormats.Contains(stepFormat, StringComparer.OrdinalIgnoreCase))
            {
                STEP_DataExchangeFormats.Add(stepFormat);
            }

            CyPhy.BallisticTestBench testBench = testBenchBase as CyPhy.BallisticTestBench;
            if (testBench == null)
            {
                testBench = CyPhyClasses.BallisticTestBench.Cast(testBenchBase.Impl);
            }

            base.TraverseTestBench(testBenchBase);          //AnalysisID = testBench.ID;

            foreach (var item in testBench.Children.BallisticComputation2MetricCollection)
            {
                TBComputation tbcomputation = new TBComputation();

                if (item.SrcEnds.TotalIntersections != null)
                {
                    tbcomputation.ComputationType = TBComputation.Type.TOTALINTERSECTIONS;
                }
                else if (item.SrcEnds.TotalKills != null)
                {
                    tbcomputation.ComputationType = TBComputation.Type.TOTALKILLS;
                }
                else if (item.SrcEnds.TotalPerforations != null)
                {
                    tbcomputation.ComputationType = TBComputation.Type.TOTALPERFORATIONS;
                }
                else if (item.SrcEnds.TotalShots != null)
                {
                    tbcomputation.ComputationType = TBComputation.Type.TOTALSHOTS;
                }
                else
                {
                    Logger.Instance.AddLogMessage("Unknown Ballistic calculation: " + item.SrcEnd.Impl.Name, Severity.Error);
                }

                tbcomputation.MetricID           = item.DstEnds.Metric.ID;
                tbcomputation.MetricName         = item.Name;
                tbcomputation.RequestedValueType = "";

                Computations.Add(tbcomputation);
            }

            int predefinedCnt = testBench.Children.PredefinedBallisticSuiteCollection.Count();
            int customCnt     = testBench.Children.ShotlineModelCollection.Count();

            if (predefinedCnt > 0)
            {
                if (predefinedCnt > 1)
                {
                    Logger.Instance.AddLogMessage("Ballistic testbench can only have at most 1 predefined shotline suite.", Severity.Error);
                    return;
                }

                if (customCnt > 0)
                {
                    Logger.Instance.AddLogMessage("Ballistic testbench can not have both predefined and custom shotline suites.", Severity.Error);
                    return;
                }
            }

            // reference plane
            if (testBench.Children.ReferencePlaneCollection.Any())
            {
                if (testBench.Children.ReferencePlaneCollection.First().Attributes.ReferencePlaneType == 0)
                {
                    referencePlaneType = Survivability.ReferencePlaneTypeEnum.Ground;
                }
                else
                {
                    referencePlaneType = Survivability.ReferencePlaneTypeEnum.Waterline;
                }
            }

            // analysis
            Survivability.BallisticConfig.Analysis ballisticAnalysis = new Survivability.BallisticConfig.Analysis();
            ballisticAnalysis.ID = AnalysisID;


            if (predefinedCnt > 0)
            {
                ballisticAnalysis.suiteName = testBench.Children.PredefinedBallisticSuiteCollection.First().Attributes.Name;
            }
            else
            {
                ballisticAnalysis.suiteName = testBench.Name;
            }
            if (ballisticAnalysis.suiteName.Length == 0)
            {
                Logger.Instance.AddLogMessage("Ballistic analysis suite has no name specified.", Severity.Warning);
            }
            ballisticAnalysis.tier   = (int)testBench.Attributes.Tier + 1;  // starts at 0
            ballisticConfig.analysis = ballisticAnalysis;

            // ballistic threat
            foreach (var item in testBench.Children.BallisticThreatCollection)
            {
                VerifyBallisticThreat(item);
                Survivability.BallisticConfig.BallisticThreat threat = new Survivability.BallisticConfig.BallisticThreat();
                threat.diameter_meters    = item.Attributes.Diameter;
                threat.length_meters      = item.Attributes.Length;
                threat.materialRef        = item.Attributes.Material;
                threat.speed_metersPerSec = item.Attributes.Speed;

                if (item.Kind == "ProjectileBallisticThreat")
                {
                    threat.type = Survivability.BallisticConfig.BallisticThreat.BallisticThreatTypeEnum.Ballistic;
                }
                else if (item.Kind == "ShapedChargeJetBallisticThreat")
                {
                    threat.type            = Survivability.BallisticConfig.BallisticThreat.BallisticThreatTypeEnum.ShapedChargeJet;
                    threat.standoff_meters = (item as CyPhy.ShapedChargeJetBallisticThreat).Attributes.Standoff;
                    int chargeq = (int)(item as CyPhy.ShapedChargeJetBallisticThreat).Attributes.ChargeQuality;
                    threat.chargeQuality = (Survivability.BallisticConfig.BallisticThreat.ChargeQualityEnum)(chargeq);
                }
                threat.name = item.ID;

                ballisticConfig.ballisticThreats.Add(threat);
            }


            // critical components
            foreach (var item in testBench.Children.CriticalComponentCollection)
            {
                int type = (int)item.Attributes.Type;
                CyPhy.TIPRefBase refbase = item.Referred.TIPRefBase;
                if (refbase != null)
                {
                    if (refbase.Kind != "Component")
                    {
                        Logger.Instance.AddLogMessage(String.Format("Critical component must refer to a component: {0}", refbase.Name), Severity.Error);
                    }
                    else
                    {
                        Survivability.BallisticConfig.CriticalComponent criticalcomponent = new Survivability.BallisticConfig.CriticalComponent();
                        criticalcomponent.componentID = (refbase as CyPhy.Component).Attributes.InstanceGUID;
                        criticalcomponent.type        = (Survivability.BallisticConfig.CriticalComponent.CriticalityTypeEnum)(type);
                        ballisticConfig.criticalComponents.Add(criticalcomponent);
                    }
                }
            }


            // file location
            // see GenerateCADXmlOutput();

            // custom shotline
            foreach (var item in testBench.Children.ShotlineModelCollection)
            {
                if (VerifyShotLineModel(item))
                {
                    continue;
                }

                string componentid = "";
                string datumname   = "";

                CyPhy.ShotlineTarget target    = item.DstConnections.ShotlineTargetCollection.First();
                CyPhy.Point          ap        = target.DstEnds.Point;
                PointMetricTraversal traverser = new PointMetricTraversal(ap);
                if (!traverser.portsFound.Any())
                {
                    Logger.Instance.AddLogMessage("Shotline Model is connected to an AnalysisPoint which does not end in a PointGeometry [" + item.Path + "]", Severity.Error);
                    continue;
                }

                datumname = (traverser.portsFound.First() as CyPhy.Point).Attributes.DatumName;
                CyPhy.Component targetComponent = CyPhyClasses.Component.Cast(traverser.portsFound.First().ParentContainer.ParentContainer.Impl);
                componentid = targetComponent.Attributes.InstanceGUID;

                foreach (var conn in item.SrcConnections.Threat2ShotlineSuiteCollection)
                {
                    CyPhy.BallisticThreat threat = conn.SrcEnds.BallisticThreat;

                    CustomShotline customshotline = new CustomShotline();
                    customshotline.Azimuth            = item.Children.AzimuthAngleCollection.First().Attributes.Value;
                    customshotline.Elevation          = item.Children.ElevationAngleCollection.First().Attributes.Value;
                    customshotline.BallisticThreatRef = threat.ID;
                    customshotline.ComponentID        = componentid;
                    customshotline.DatumPoint         = datumname;
                    customshotline.ShotlineName       = item.Attributes.Name;

                    customShotlineList.Add(customshotline);
                }
            }
        }
Beispiel #3
0
        public override void TraverseTestBench(CyPhy.TestBenchType testBenchBase)
        {
            // META-3195 - CFD needs Inventor format now instead of STL - Stereolithography_ASCII
            NonSTEP_DataExchangeFormats.Add("Inventor");

            CyPhy.CFDTestBench testBench = testBenchBase as CyPhy.CFDTestBench;
            if (testBench == null)
            {
                testBench = CyPhyClasses.CFDTestBench.Cast(testBenchBase.Impl);
            }

            base.TraverseTestBench(testBenchBase); //AnalysisID = testBench.ID;

            foreach (var conn in testBench.Children.CFDComputation2MetricCollection)
            {
                TBComputation tbcomputation = new TBComputation();
                tbcomputation.MetricID           = conn.DstEnds.Metric.ID;
                tbcomputation.ComputationType    = TBComputation.Type.COEFFICIENTOFDRAG;
                tbcomputation.RequestedValueType = "SCALAR";
                Computations.Add(tbcomputation);
            }

            int calmSolverCnt         = testBench.Children.CalmWaterSolverSettingsCollection.Count();
            int waveSolverCnt         = testBench.Children.WaveResistanceSolverSettingsCollection.Count();
            int correlationSolverCnt  = testBench.Children.CorrelationSettingsCollection.Count();
            int hydrostaticsSolverCnt = testBench.Children.HydrostaticsSolverSettingsCollection.Count();

            if ((calmSolverCnt + waveSolverCnt + correlationSolverCnt + hydrostaticsSolverCnt) < 1)
            {
                Logger.Instance.AddLogMessage("No CFD solver settings in the test bench", Severity.Error);
                return;
            }

            if (hydrostaticsSolverCnt > 1 || (calmSolverCnt + waveSolverCnt + correlationSolverCnt) > 1)
            {
                Logger.Instance.AddLogMessage(
                    "Multiple CFD solver settings in the test bench",
                    Severity.Error);
                Logger.Instance.AddLogMessage(
                    "A test bench can only contain one hydrostatics and one calm, wave or correlation solver setting.",
                    Severity.Info);
                return;
            }

            #region ValidAttributes

            double MinVelocity = 0;
            double MaxVelocity = 343;
            double AbsZero     = -273.15;
            double MaxTemp     = 100;
            double MinAngle    = 0;
            double MaxAngle    = 360;

            #endregion

            if (hydrostaticsSolverCnt == 1)
            {
                CyPhy.HydrostaticsSolverSettings solverSettings = testBench.Children.HydrostaticsSolverSettingsCollection.First();

                if (solverSettings.Attributes.FluidTemperature < AbsZero ||
                    solverSettings.Attributes.FluidTemperature > MaxTemp)
                {
                    string message = string.Format(
                        "'{0}': 'FluidTemperature' attribute must be [{1} - {2}]",
                        solverSettings.Name,
                        AbsZero,
                        MaxTemp);

                    Logger.Instance.AddLogMessage(
                        message,
                        Severity.Error);
                }

                if (solverSettings.Attributes.PitchAngleStart < MinAngle ||
                    solverSettings.Attributes.PitchAngleStart > MaxAngle ||
                    solverSettings.Attributes.PitchAngleEnd < MinAngle ||
                    solverSettings.Attributes.PitchAngleEnd > MaxAngle ||
                    solverSettings.Attributes.RollAngleStart < MinAngle ||
                    solverSettings.Attributes.RollAngleStart > MaxAngle ||
                    solverSettings.Attributes.RollAngleEnd < MinAngle ||
                    solverSettings.Attributes.RollAngleEnd > MaxAngle ||
                    solverSettings.Attributes.PitchAngleStepSize < MinAngle ||
                    solverSettings.Attributes.PitchAngleStepSize > MaxAngle ||
                    solverSettings.Attributes.RollAngleStepSize < MinAngle ||
                    solverSettings.Attributes.RollAngleStepSize > MaxAngle)
                {
                    string message = string.Format(
                        "'{0}': 'Angle' attributes must be [{1}-{2}]",
                        solverSettings.Name,
                        MinAngle,
                        MaxAngle);

                    Logger.Instance.AddLogMessage(
                        message,
                        Severity.Error);
                }

                cfdConfigs.Add(new CFDConfig.HydrostaticsSolverSettings(solverSettings, testBench));
            }

            if (calmSolverCnt == 1)
            {
                CyPhy.CalmWaterSolverSettings solverSettings = testBench.Children.CalmWaterSolverSettingsCollection.First();

                if (solverSettings.Attributes.VehicleVelocity > MaxVelocity ||
                    solverSettings.Attributes.VehicleVelocity < MinVelocity)
                {
                    string message = string.Format(
                        "'{0}': 'Velocity' attribute must be [{1}-{2}]",
                        solverSettings.Name,
                        MinVelocity,
                        MaxVelocity);

                    Logger.Instance.AddLogMessage(
                        message,
                        Severity.Error);
                }

                if (solverSettings.Attributes.FluidTemperature < AbsZero ||
                    solverSettings.Attributes.FluidTemperature > MaxTemp)
                {
                    string message = string.Format(
                        "'{0}': 'FluidTemperature' attribute must be [{1} - {2}]",
                        solverSettings.Name,
                        AbsZero,
                        MaxTemp);

                    Logger.Instance.AddLogMessage(
                        message,
                        Severity.Error);
                }

                cfdConfigs.Add(new CFDConfig.CalmWaterSolverSettings(solverSettings, testBench));
                return;
            }

            if (waveSolverCnt == 1)
            {
                CyPhy.WaveResistanceSolverSettings solverSettings = testBench.Children.WaveResistanceSolverSettingsCollection.First();

                if (solverSettings.Attributes.VehicleVelocity > MaxVelocity ||
                    solverSettings.Attributes.VehicleVelocity < MinVelocity)
                {
                    string message = string.Format(
                        "'{0}': 'Velocity' attribute must be [{1}-{2}]",
                        solverSettings.Name,
                        MinVelocity,
                        MaxVelocity);

                    Logger.Instance.AddLogMessage(
                        message,
                        Severity.Error);
                }

                if (solverSettings.Attributes.FluidTemperature < AbsZero ||
                    solverSettings.Attributes.FluidTemperature > MaxTemp)
                {
                    string message = string.Format(
                        "'{0}': 'FluidTemperature' attribute must be [{1} - {2}]",
                        solverSettings.Name,
                        AbsZero,
                        MaxTemp);

                    Logger.Instance.AddLogMessage(
                        message,
                        Severity.Error);
                }

                if (solverSettings.Attributes.WaveFrequency < 0)
                {
                    string message = string.Format(
                        "'{0}': 'WaveFrequency' attribute must be greater than 0",
                        solverSettings.Name);

                    Logger.Instance.AddLogMessage(
                        message,
                        Severity.Error);
                }

                if (solverSettings.Attributes.WaveDirection < MinAngle ||
                    solverSettings.Attributes.WaveDirection > MaxAngle)
                {
                    string message = string.Format(
                        "'{0}': 'Angle' attributes must be [{1}-{2}]",
                        solverSettings.Name,
                        MinAngle,
                        MaxAngle);

                    Logger.Instance.AddLogMessage(
                        message,
                        Severity.Error);
                }

                cfdConfigs.Add(new CFDConfig.WaveResistanceSolverSettings(solverSettings, testBench));
                return;
            }

            if (correlationSolverCnt == 1)
            {
                CyPhy.CorrelationSettings solverSettings = testBench.Children.CorrelationSettingsCollection.First();

                if (solverSettings.Attributes.VehicleVelocity > MaxVelocity ||
                    solverSettings.Attributes.VehicleVelocity < 0)
                {
                    string message = string.Format(
                        "'{0}': 'Velocity' attribute must be [{1}-{2}]",
                        solverSettings.Name,
                        MinVelocity,
                        MaxVelocity);

                    Logger.Instance.AddLogMessage(
                        message,
                        Severity.Error);
                }

                cfdConfigs.Add(new CFDConfig.CorrelationSolverSettings(solverSettings, testBench));
                return;
            }

            // Post Processing Blocks
            foreach (var postprocess in testBench.Children.PostProcessingCollection)
            {
                PostProcessScripts.Add(postprocess.Attributes.ScriptPath);
            }
        }