Exemple #1
0
        private static bool AddExtrusion(CyPhy.Extrusion extrusion, List <KeyValuePair <string, string> > featureList)           // only extrusion with polygon is supported
        {
            if (extrusion.Children.PolygonCollection.Any())
            {
                CyPhy.Polygon polygon = extrusion.Children.PolygonCollection.FirstOrDefault();
                if (polygon != null)
                {
                    AddPolygon(polygon,
                               featureList);
                    List <MgaFCO> height = FindByRole((extrusion.Impl as MgaModel), "ExtrusionHeight");
                    if (height.Count < 1)
                    {
                        Logger.Instance.AddLogMessage(String.Format("Extrusion geometry must contain exactly 1 ExtrusionHeight point: {0}", extrusion.ToHyperLink()), Severity.Error);
                        return(false);
                    }

                    CyPhy.Point offset = CyPhyClasses.Point.Cast(height[0]);
                    if (CreateFeatureFromPoint(offset,
                                               featureList))
                    {
                        return(true);
                    }
                    else
                    {
                        Logger.Instance.AddLogMessage(String.Format("Extrusion geometry's ExtrusionHeight must connect to a Point datum inside a CADModel: {0}", extrusion.ToHyperLink()), Severity.Error);
                        return(false);
                    }
                }
            }

            return(false);
        }
Exemple #2
0
        private static bool AddSphere(CyPhy.Sphere sphere, List <KeyValuePair <string, string> > featureList)
        {
            List <MgaFCO> centerPts = new List <MgaFCO>();

            centerPts = FindByRole((sphere.Impl as MgaModel), "SphereCenter");
            List <MgaFCO> edgePts = new List <MgaFCO>();

            edgePts = FindByRole((sphere.Impl as MgaModel), "SphereEdge");

            if (centerPts.Count != 1 || edgePts.Count != 1)
            {
                Logger.Instance.AddLogMessage(String.Format("Sphere geometry must contain 1 SphereEdge and 1 SphereCenter: {0}", sphere.ToHyperLink()), Severity.Error);
                return(false);
            }

            CyPhy.Point centerPt = CyPhyClasses.Point.Cast(centerPts[0]);
            if (!CreateFeatureFromPoint(centerPt,
                                        featureList))
            {
                Logger.Instance.AddLogMessage(String.Format("Sphere geometry's SphereCenter point must connect to a Point datum inside a CADModel: {0}", sphere.ToHyperLink()), Severity.Error);
                return(false);
            }

            CyPhy.Point edge = CyPhyClasses.Point.Cast(edgePts[0]);
            if (!CreateFeatureFromPoint(edge,
                                        featureList))
            {
                Logger.Instance.AddLogMessage(String.Format("Sphere geometry's SphereEdge point must connect to a Point datum inside a CADModel: {0}", sphere.ToHyperLink()), Severity.Error);
                return(false);
            }

            return(true);
        }
Exemple #3
0
        private static bool AddCylinder(CyPhy.Cylinder cylinder,
                                        List <KeyValuePair <string, string> > featureList)
        {
            bool status = true;

            if (cylinder != null)
            {
                // start, end, radius
                MgaModel      cylinderMga = cylinder.Impl as MgaModel;
                List <MgaFCO> startPts    = new List <MgaFCO>();
                startPts = FindByRole(cylinderMga, "CylinderStart");
                List <MgaFCO> endPts = new List <MgaFCO>();
                endPts = FindByRole(cylinderMga, "CylinderEnd");
                List <MgaFCO> radiusPts = new List <MgaFCO>();
                radiusPts = FindByRole(cylinderMga, "CylinderRadius");

                if (startPts.Count != 1 || endPts.Count != 1 || radiusPts.Count != 1)
                {
                    Logger.Instance.AddLogMessage(String.Format("Cylinder geometry must contain 1 CylinderStart, 1 CylinderEnd, and 1 CylinderRadius: {0}", cylinder.ToHyperLink()), Severity.Error);
                    return(false);
                }

                CyPhy.Point startPt = CyPhyClasses.Point.Cast(startPts[0]);
                if (!CreateFeatureFromPoint(startPt,
                                            featureList))
                {
                    Logger.Instance.AddLogMessage(String.Format("Cylinder geometry's CylinderStart point must connect to a Point datum inside a CADModel: {0}", cylinder.ToHyperLink()), Severity.Error);
                    return(false);
                }
                CyPhy.Point endPt = CyPhyClasses.Point.Cast(endPts[0]);
                if (!CreateFeatureFromPoint(endPt,
                                            featureList))
                {
                    Logger.Instance.AddLogMessage(String.Format("Cylinder geometry's CylinderEnd point must connect to a Point datum inside a CADModel: {0}", cylinder.ToHyperLink()), Severity.Error);
                    return(false);
                }
                CyPhy.Point radiusPt = CyPhyClasses.Point.Cast(radiusPts[0]);
                if (!CreateFeatureFromPoint(radiusPt,
                                            featureList))
                {
                    Logger.Instance.AddLogMessage(String.Format("Cylinder geometry's CylinderRadius point must connect to a Point datum inside a CADModel: {0}", cylinder.ToHyperLink()), Severity.Error);
                    return(false);
                }
            }
            else
            {
                status = false;
            }

            //var height = (extrusion.Impl as MgaModel).ChildFCOs.Cast<MgaFCO>().Where(x => x.MetaRole.Name == "ExtrusionHeight").FirstOrDefault();

            return(status);
        }
Exemple #4
0
        private static bool AddCircle(CyPhy.Circle circle, List <KeyValuePair <string, string> > featureList)
        {
            bool status = true;

            List <MgaFCO> edgePts = new List <MgaFCO>();

            edgePts = FindByRole((circle.Impl as MgaModel), "CircleEdge");
            List <MgaFCO> centerPts = new List <MgaFCO>();

            centerPts = FindByRole((circle.Impl as MgaModel), "CircleCenter");

            if (centerPts.Count != 1 || edgePts.Count != 2)
            {
                Logger.Instance.AddLogMessage(String.Format("Circle geometry must contain 2 CircleEdge and 1 CircleCenter points: {0}", circle.ToHyperLink()), Severity.Error);
                return(false);
            }


            CyPhy.Point centerPt = CyPhyClasses.Point.Cast(centerPts[0]);
            CyPhy.Point edge1    = CyPhyClasses.Point.Cast(edgePts[0]);
            CyPhy.Point edge2    = CyPhyClasses.Point.Cast(edgePts[1]);

            // Should be checked

            /*if (edge1.Guid.Equals(edge2.Guid))
             * {
             *  Logger.Instance.AddLogMessage(String.Format("Circle is defined by equivalend edge points. These 2 points must be different to be able to identify a plane: {0}", circle.ToHyperLink()), Severity.Error);
             *  return false;
             * }*/

            if (!CreateFeatureFromPoint(centerPt,
                                        featureList))
            {
                Logger.Instance.AddLogMessage(String.Format("Circle geometry's CircleCenter point must connect to a Point datum inside a CADModel: {0}", circle.ToHyperLink()), Severity.Error);
                return(false);
            }
            if (!CreateFeatureFromPoint(edge1,
                                        featureList))
            {
                Logger.Instance.AddLogMessage(String.Format("Circle geometry's CircleEdge point must connect to a Point datum inside a CADModel: {0}", circle.ToHyperLink()), Severity.Error);
                return(false);
            }

            if (!CreateFeatureFromPoint(edge2,
                                        featureList))
            {
                Logger.Instance.AddLogMessage(String.Format("Circle geometry's CircleEdge point must connect to a Point datum inside a CADModel: {0}", circle.ToHyperLink()), Severity.Error);
                return(false);
            }

            return(status);
        }
Exemple #5
0
        private static bool AddFace(CyPhy.Face face, List <KeyValuePair <string, string> > featureList, out CADGeometry.FeatureTypeEnum type)
        {
            List <MgaFCO> referencePts = new List <MgaFCO>();

            referencePts = FindByRole(face.Impl as MgaModel, "ReferencePoint");
            int ptCnt   = referencePts.Count();
            int surfCnt = face.Children.SurfaceCollection.Count();

            type = CADGeometry.FeatureTypeEnum.POINT;
            if ((ptCnt + surfCnt) > 1)
            {
                // insert error message
                Logger.Instance.AddLogMessage(String.Format("Face geometry must contain a ReferencePoint or a ReferenceSurface: {0}", face.ToHyperLink()), Severity.Error);
                return(false);
            }

            if (ptCnt > 0)          // Plane
            {
                type = CADGeometry.FeatureTypeEnum.POINT;
                CyPhy.Point point = CyPhyClasses.Point.Cast(referencePts.First());
                if (CreateFeatureFromPoint(point,
                                           featureList))
                {
                    return(true);
                }
                else
                {
                    Logger.Instance.AddLogMessage(String.Format("Face geometry's ReferencePoint must connect to a Point datum inside a CADModel: {0}", face.ToHyperLink()), Severity.Error);
                    return(false);
                }
            }

            if (surfCnt > 0)        // Surface
            {
                type = CADGeometry.FeatureTypeEnum.SURFACE;
                CyPhy.Surface surface = face.Children.SurfaceCollection.First();
                if (CreateFeatureFromPoint(surface,
                                           featureList))
                {
                    return(true);
                }
                else
                {
                    Logger.Instance.AddLogMessage(String.Format("Face geometry's ReferenceSurface must connect to a Surface datum inside a CADModel: {0}", face.ToHyperLink()), Severity.Error);
                    return(false);
                }
            }

            return(false);
        }
Exemple #6
0
        private void CreatePointCoordinatesList(CyPhy.Component component)
        {
            CyPhy.CADModel cadmodel = component.Children.CADModelCollection.FirstOrDefault(x => x.Attributes.FileFormat.ToString() == "Creo");
            if (cadmodel == null)
            {
                return;
            }

            string componentID = component.ID;
            string cadmodelID  = cadmodel.ID;

            /*
             * var conns = component.Children.PortCompositionCollection
             *  .Where(x => x.SrcEnd.Kind == "Point" && x.DstEnd.Kind == "Point")
             *  .Cast<IMgaSimpleConnection>()
             *  .Where(x => (x.Src.ParentModel.ID == componentID || x.Src.ParentModel.ID == cadmodelID) && (x.Dst.ParentModel.ID == componentID || x.Dst.ParentModel.ID == cadmodelID));
             */

            foreach (var p in cadmodel.Children.PointCollection)
            {
                MgaFCO pointFCO = p.Impl as MgaFCO;
                var    connPt   = pointFCO.PartOfConns
                                  .Cast <IMgaConnPoint>()
                                  .Select(x => x.Owner)
                                  .Cast <IMgaSimpleConnection>()
                                  .Where(x => ((x.Src.ID == pointFCO.ID) && (x.Dst.ParentModel.ID == componentID)) || ((x.Dst.ID == pointFCO.ID) && (x.Src.ParentModel.ID == componentID)));

                if (connPt.Count() > 0)
                {
                    CyPhy.Point point = CyPhyClasses.Point.Cast(pointFCO);
                    if (point != null)
                    {
                        TestBenchModel.TBComputation computation = new TestBenchModel.TBComputation()
                        {
                            ComponentID        = DisplayID,
                            ComputationType    = TestBenchModel.TBComputation.Type.POINTCOORDINATES,
                            Details            = point.Attributes.DatumName,
                            MetricID           = DisplayID + ":" + point.Attributes.DatumName,
                            RequestedValueType = "Vector"
                        };

                        this.PointCoordinatesList.Add(computation);
                    }
                }
            }
        }
Exemple #7
0
        private void TraverseComposites(CyPhy.Component component)
        {
            foreach (var material in component.Children.MaterialContentsCollection)
            {
                CAD.ElementType cadElement = new CAD.ElementType()
                {
                    _id          = UtilityHelpers.MakeUdmID(),
                    ElementType1 = "SURFACE"
                };

                MgaModel      materialMga = material.Impl as MgaModel;
                List <MgaFCO> startDirPts = new List <MgaFCO>();
                List <MgaFCO> endDirPts   = new List <MgaFCO>();

                startDirPts = CyPhy2CAD_CSharp.DataRep.CADGeometry.FindByRole(materialMga, "Start_Direction");
                endDirPts   = CyPhy2CAD_CSharp.DataRep.CADGeometry.FindByRole(materialMga, "End_Direction");

                if (startDirPts.Count != 1 && endDirPts.Count != 1)
                {
                    Logger.Instance.AddLogMessage("Material Content must contain one Start_Direction and one End_Direction point.", Severity.Warning);
                    continue;
                }


                CyPhy.Point startDirPt          = CyPhyClasses.Point.Cast(startDirPts[0]);
                string      startDirPtDatumName = GetFeatureName(startDirPt);

                CyPhy.Point endDirPt          = CyPhyClasses.Point.Cast(endDirPts[0]);
                string      endDirPtDatumName = GetFeatureName(endDirPt);

                CAD.OrientationType cadOrientation = new CAD.OrientationType()
                {
                    _id = UtilityHelpers.MakeUdmID()
                };
                CAD.GeometryType cadGeometry = new CAD.GeometryType()
                {
                    _id = UtilityHelpers.MakeUdmID()
                };


                CAD.FeatureType cadStartFeature = new CAD.FeatureType()
                {
                    _id         = UtilityHelpers.MakeUdmID(),
                    ComponentID = DisplayID,
                    Name        = startDirPtDatumName,
                    MetricID    = DisplayID + ":" + startDirPtDatumName
                };
                TestBenchModel.TBComputation startFeatureComputation = new TestBenchModel.TBComputation()
                {
                    ComponentID        = DisplayID,
                    ComputationType    = TestBenchModel.TBComputation.Type.POINTCOORDINATES,
                    Details            = startDirPtDatumName,
                    FeatureDatumName   = startDirPtDatumName,
                    MetricID           = DisplayID + ":" + startDirPtDatumName,
                    RequestedValueType = "Vector"
                };
                pointCoordinatesList.Add(startFeatureComputation);
                if (String.IsNullOrEmpty(startDirPtDatumName))
                {
                    Logger.Instance.AddLogMessage("Empty point datum name [" + startDirPt.Path + "]", Severity.Warning);
                }

                CAD.FeatureType cadEndFeature = new CAD.FeatureType()
                {
                    _id         = UtilityHelpers.MakeUdmID(),
                    ComponentID = DisplayID,
                    Name        = endDirPtDatumName,
                    MetricID    = DisplayID + ":" + endDirPtDatumName
                };
                TestBenchModel.TBComputation endFeatureComputation = new TestBenchModel.TBComputation()
                {
                    ComponentID        = DisplayID,
                    ComputationType    = TestBenchModel.TBComputation.Type.POINTCOORDINATES,
                    Details            = endDirPtDatumName,
                    FeatureDatumName   = endDirPtDatumName,
                    MetricID           = DisplayID + ":" + endDirPtDatumName,
                    RequestedValueType = "Vector"
                };
                pointCoordinatesList.Add(endFeatureComputation);
                if (String.IsNullOrEmpty(endDirPtDatumName))
                {
                    Logger.Instance.AddLogMessage("Empty point datum name [" + endDirPt.Path + "]", Severity.Warning);
                }

                CAD.FeaturesType cadFeatures = new CAD.FeaturesType()
                {
                    _id                        = UtilityHelpers.MakeUdmID(),
                    FeatureID                  = material.ID,
                    GeometryType               = "Vector",
                    FeatureInterfaceType       = "CAD_DATUM",
                    FeatureGeometryType        = "POINT",
                    PrimaryGeometryQualifier   = "",
                    SecondaryGeometryQualifier = ""
                };

                cadFeatures.Feature     = new CAD.FeatureType[2];
                cadFeatures.Feature[0]  = cadStartFeature;
                cadFeatures.Feature[1]  = cadEndFeature;
                cadGeometry.Features    = new CAD.FeaturesType[1];
                cadGeometry.Features[0] = cadFeatures;
                cadOrientation.Geometry = cadGeometry;


                // Material Layups
                CAD.MaterialLayupType cadLayers = new CAD.MaterialLayupType()
                {
                    _id       = UtilityHelpers.MakeUdmID(),
                    Position  = material.Attributes.Position.ToString().ToUpper(),
                    Offset    = (material.Attributes.Position.ToString().ToUpper() != "OFFSET_BY_VALUE") ? 0 : (material.Attributes.PositionOffset),
                    Direction = material.Attributes.MaterialLayupDirection.ToString().ToUpper()
                };

                int layerCnt = material.Children.MaterialLayerCollection.Count();
                if (layerCnt > 0)
                {
                    cadLayers.Layer = new CAD.LayerType[layerCnt];

                    int k = 0;
                    foreach (var layer in material.Children.MaterialLayerCollection.OrderBy(i => i.Attributes.LayerID))
                    {
                        CAD.LayerType cadLayer = new CAD.LayerType()
                        {
                            _id           = UtilityHelpers.MakeUdmID(),
                            ID            = layer.Attributes.LayerID,
                            Drop_Order    = layer.Attributes.DropOrder,
                            Material_Name = layer.Attributes.LayerMaterial,
                            Orientation   = layer.Attributes.LayerOrientation,
                            Thickness     = layer.Attributes.LayerThickness
                        };

                        cadLayers.Layer[k] = cadLayer;
                        k++;
                    }
                }

                CAD.ElementContentsType cadElementContents = new CAD.ElementContentsType();
                cadElementContents._id           = UtilityHelpers.MakeUdmID();
                cadElementContents.Orientation   = cadOrientation;
                cadElementContents.MaterialLayup = cadLayers;
                cadElement.ElementContents       = cadElementContents;


                if (material.DstConnections.ContentsToGeometryCollection.Count() < 1 || material.DstConnections.ContentsToGeometryCollection.Count() > 1)
                {
                    Logger.Instance.AddLogMessage("Material Content need to connect to one Face geometry.", Severity.Warning);
                    continue;
                }


                // Face, Polygon, or Extrusion Geometry
                CyPhy.ContentsToGeometry conn = material.DstConnections.ContentsToGeometryCollection.FirstOrDefault();
                if (conn != null)
                {
                    CyPhy.Face      faceGeometry      = conn.DstEnds.Face;
                    CyPhy.Polygon   polgonGeometry    = conn.DstEnds.Polygon;
                    CyPhy.Extrusion extrusionGeometry = conn.DstEnds.Extrusion;


                    int countGeometryTypes = 0;

                    if (faceGeometry != null)
                    {
                        ++countGeometryTypes;
                    }
                    if (polgonGeometry != null)
                    {
                        ++countGeometryTypes;
                    }
                    if (extrusionGeometry != null)
                    {
                        ++countGeometryTypes;
                    }

                    if (countGeometryTypes != 1)
                    {
                        Logger.Instance.AddLogMessage("MaterialContents must be connected to one and only one geometry type (i.e. FACE, POLOGON, or EXTRUSION).", Severity.Warning);
                        continue;
                    }


                    // Approach when only FACE was supported
                    //String primBoundaryQ = faceGeometry.Attributes.BoundaryQualifier.ToString().Replace("_", string.Empty);
                    //MgaModel faceMga = faceGeometry.Impl as MgaModel;
                    //List<MgaFCO> normalDirPts = new List<MgaFCO>();
                    //normalDirPts = CyPhy2CAD_CSharp.DataRep.CADGeometry.FindByRole(faceMga, "Direction_Reference_Point");

                    String        primBoundaryQ = "";
                    MgaModel      faceMga;
                    List <MgaFCO> normalDirPts = new List <MgaFCO>();

                    if (faceGeometry != null)
                    {
                        primBoundaryQ = faceGeometry.Attributes.BoundaryQualifier.ToString().Replace("_", string.Empty);
                        faceMga       = faceGeometry.Impl as MgaModel;
                        normalDirPts  = CyPhy2CAD_CSharp.DataRep.CADGeometry.FindByRole(faceMga, "Direction_Reference_Point");
                    }
                    else if (polgonGeometry != null)
                    {
                        primBoundaryQ = polgonGeometry.Attributes.BoundaryQualifier.ToString().Replace("_", string.Empty);
                        faceMga       = polgonGeometry.Impl as MgaModel;
                        normalDirPts  = CyPhy2CAD_CSharp.DataRep.CADGeometry.FindByRole(faceMga, "Direction_Reference_Point");
                    }
                    else if (extrusionGeometry != null)
                    {
                        primBoundaryQ = extrusionGeometry.Attributes.BoundaryQualifier.ToString().Replace("_", string.Empty);
                        faceMga       = extrusionGeometry.Impl as MgaModel;
                        normalDirPts  = CyPhy2CAD_CSharp.DataRep.CADGeometry.FindByRole(faceMga, "Direction_Reference_Point");
                    }

                    if (normalDirPts.Count != 1)
                    {
                        Logger.Instance.AddLogMessage("Geometry (FACE, POLYGON, or EXTRUSION) can contain only one Direction_Reference_Point point.", Severity.Warning);
                        continue;
                    }

                    CyPhy.Point normalDirPt         = CyPhyClasses.Point.Cast(normalDirPts.FirstOrDefault());
                    string      normalPtFeatureName = GetFeatureName(normalDirPt);
                    if (String.IsNullOrEmpty(normalPtFeatureName))
                    {
                        Logger.Instance.AddLogMessage("Direction_Reference_Point point of the Face/Ploygon/Extrusion geometry doesn't have a datum name. Make sure it is connected to a valid point inside a CADModel.", Severity.Warning);
                        continue;
                    }

                    CyPhy2CAD_CSharp.DataRep.CADGeometry faceOrExtruOrPolyGeometryRep = null;
                    if (faceGeometry != null)
                    {
                        faceOrExtruOrPolyGeometryRep = CyPhy2CAD_CSharp.DataRep.CADGeometry.CreateGeometry(faceGeometry);
                        if (faceOrExtruOrPolyGeometryRep == null)
                        {
                            Logger.Instance.AddLogMessage("Unsuccessfully created a representation of a Face Geometry.", Severity.Warning);
                            continue;
                        }
                    }
                    else if (polgonGeometry != null)
                    {
                        faceOrExtruOrPolyGeometryRep = CyPhy2CAD_CSharp.DataRep.CADGeometry.CreateGeometry(polgonGeometry);
                        if (faceOrExtruOrPolyGeometryRep == null)
                        {
                            Logger.Instance.AddLogMessage("Unsuccessfully created a representation of a Polygon Geometry.", Severity.Warning);
                            continue;
                        }
                    }
                    else if (extrusionGeometry != null)
                    {
                        faceOrExtruOrPolyGeometryRep = CyPhy2CAD_CSharp.DataRep.CADGeometry.CreateGeometry(extrusionGeometry);
                        if (faceOrExtruOrPolyGeometryRep == null)
                        {
                            Logger.Instance.AddLogMessage("Unsuccessfully created a representation of a Extrusion Geometry.", Severity.Warning);
                            continue;
                        }
                    }

                    // Element/Geometry
                    CAD.GeometryType cadFaceOrExtruOrPolyGeometryOut = faceOrExtruOrPolyGeometryRep.ToCADXMLOutput();
                    if (cadFaceOrExtruOrPolyGeometryOut == null)
                    {
                        Logger.Instance.AddLogMessage("Unsuccessfully converted a representation of a Face/Ploygon/Extrusion Geometry to CAD xml.", Severity.Warning);
                        continue;
                    }


                    cadElement.Geometry = cadFaceOrExtruOrPolyGeometryOut;
                    foreach (var faceOrExtruOrPolyGeomFeatures in cadFaceOrExtruOrPolyGeometryOut.Features)
                    {
                        foreach (var feature_temp in faceOrExtruOrPolyGeomFeatures.Feature)
                        {
                            TestBenchModel.TBComputation faceGeometryComputation = new TestBenchModel.TBComputation()
                            {
                                ComponentID        = DisplayID,
                                ComputationType    = TestBenchModel.TBComputation.Type.POINTCOORDINATES,
                                Details            = feature_temp.Name,
                                FeatureDatumName   = feature_temp.Name,
                                MetricID           = feature_temp.MetricID,
                                RequestedValueType = "Vector"
                            };
                            pointCoordinatesList.Add(faceGeometryComputation);
                        }
                    }

                    // Element/Geometry

                    string direction_temp = "";

                    if (faceGeometry != null)
                    {
                        direction_temp = (faceGeometry.Attributes.NormalDirection == CyPhyClasses.Face.AttributesClass.NormalDirection_enum.Toward_Reference_Point) ? "TOWARD" : "AWAY";
                    }
                    else if (polgonGeometry != null)
                    {
                        direction_temp = (polgonGeometry.Attributes.NormalDirection == CyPhyClasses.Polygon.AttributesClass.NormalDirection_enum.Toward_Reference_Point) ? "TOWARD" : "AWAY";
                    }
                    else if (extrusionGeometry != null)
                    {
                        direction_temp = (extrusionGeometry.Attributes.NormalDirection == CyPhyClasses.Extrusion.AttributesClass.NormalDirection_enum.Toward_Reference_Point) ? "TOWARD" : "AWAY";
                    }

                    CAD.SurfaceNormalType cadSurfaceNormal = new CAD.SurfaceNormalType()
                    {
                        _id       = UtilityHelpers.MakeUdmID(),
                        Direction = direction_temp
                    };

                    CAD.FeaturesType cadSurfaceNormFeatures = new CAD.FeaturesType()
                    {
                        _id                        = UtilityHelpers.MakeUdmID(),
                        FeatureID                  = normalDirPt.ID,
                        GeometryType               = "POINT",
                        FeatureInterfaceType       = "CAD_DATUM",
                        FeatureGeometryType        = "POINT",
                        Feature                    = new CAD.FeatureType[1],
                        PrimaryGeometryQualifier   = primBoundaryQ,
                        SecondaryGeometryQualifier = ""
                    };

                    cadSurfaceNormFeatures.Feature[0] = new CAD.FeatureType()
                    {
                        _id         = UtilityHelpers.MakeUdmID(),
                        Name        = normalPtFeatureName,
                        ComponentID = DisplayID,
                        MetricID    = DisplayID + ":" + normalPtFeatureName
                    };
                    TestBenchModel.TBComputation surfNormalComputation = new TestBenchModel.TBComputation()
                    {
                        ComponentID        = DisplayID,
                        ComputationType    = TestBenchModel.TBComputation.Type.POINTCOORDINATES,
                        Details            = normalPtFeatureName,
                        FeatureDatumName   = normalPtFeatureName,
                        MetricID           = DisplayID + ":" + normalPtFeatureName,
                        RequestedValueType = "Vector"
                    };
                    pointCoordinatesList.Add(surfNormalComputation);
                    if (String.IsNullOrEmpty(normalPtFeatureName))
                    {
                        Logger.Instance.AddLogMessage("Empty point datum name [" + normalDirPt.Path + "]", Severity.Warning);
                    }

                    CAD.GeometryType cadSurfaceNormGeom = new CAD.GeometryType()
                    {
                        _id      = UtilityHelpers.MakeUdmID(),
                        Features = new CAD.FeaturesType[1],
                    };

                    cadSurfaceNormGeom.Features[0] = cadSurfaceNormFeatures;
                    cadSurfaceNormal.Geometry      = cadSurfaceNormGeom;
                    cadElement.SurfaceNormal       = cadSurfaceNormal;
                }

                this.CadElementsList.Add(cadElement);
            }
        }
Exemple #8
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);
                }
            }
        }
Exemple #9
0
        public override void TraverseTestBench(CyPhy.TestBenchType testBenchBase)
        {
            CyPhy.TestBench testBench = testBenchBase as CyPhy.TestBench;
            if (testBench == null)
            {
                testBench = CyPhyClasses.TestBench.Cast(testBenchBase.Impl);
            }
            base.TraverseTestBench(testBenchBase);   //AnalysisID = testBench.ID;

            // R.O. added 11/15/2016, because the MSD_CAD.xme/TestBench_Valid was failing because the schema for CADAssmbly.xml requires
            // that ComponentID be set for Metrics/Metric attributes.  For Mass, CenterOfGravity, BoundingBox, and Interference,
            // the metric applies to the entire assembly; therefore, we will use the top-level assembly as the ComponentID.
            var catlsut = testBench.Children.ComponentAssemblyCollection.FirstOrDefault();     // should be an instance b/c elaborate was called earlier

            if (catlsut == null)
            {
                // This check occurs earlier in ProcessCAD(), but will repeat here in case someone changes the code to not
                // test this earlier.
                throw new Exception("There is no elaborated system under test component assembly in the model!");
            }
            // "|1" is set in other places in the code for the top-level assembly.  Search on "|" to see those places.
            // If someone changes to another system ( different suffix than "|1") and does not change the following
            // line, then the CreateAssembly program will throw an exception.  This will be caught by the build tests
            // (e.g. MSD_CAD.xme/TestBench_Valid).
            string topLevelAssemblyComponentInstanceID_temp = catlsut.Attributes.ConfigurationUniqueID + "|" + "1";

            // CADComputations Metrics
            foreach (var conn in testBench.Children.CADComputation2MetricCollection)
            {
                CyPhy.CADComputationType cadcomputation = conn.SrcEnds.CADComputationType;

                TBComputation tbcomputation = new TBComputation();
                tbcomputation.MetricID = conn.DstEnds.Metric.ID;
                if (cadcomputation is CyPhy.CenterOfGravity)
                {
                    tbcomputation.ComponentID        = topLevelAssemblyComponentInstanceID_temp;
                    tbcomputation.RequestedValueType = (cadcomputation as CyPhy.CenterOfGravity).Attributes.CADComputationRequestedValue.ToString();
                    tbcomputation.ComputationType    = TBComputation.Type.CENTEROFGRAVITY;
                }
                else if (cadcomputation is CyPhy.BoundingBox)
                {
                    tbcomputation.ComponentID        = topLevelAssemblyComponentInstanceID_temp;
                    tbcomputation.RequestedValueType = (cadcomputation as CyPhy.BoundingBox).Attributes.CADComputationRequestedValue.ToString();
                    tbcomputation.ComputationType    = TBComputation.Type.BOUNDINGBOX;
                }
                else if (cadcomputation is CyPhy.InterferenceCount)
                {
                    tbcomputation.ComponentID        = topLevelAssemblyComponentInstanceID_temp;
                    tbcomputation.RequestedValueType = "Scalar";
                    tbcomputation.ComputationType    = TBComputation.Type.INTERFERENCECOUNT;
                }
                else if (cadcomputation is CyPhy.Mass)
                {
                    tbcomputation.ComponentID        = topLevelAssemblyComponentInstanceID_temp;
                    tbcomputation.RequestedValueType = "Scalar";
                    tbcomputation.ComputationType    = TBComputation.Type.MASS;
                }

                this.StaticAnalysisMetrics.Add(tbcomputation);
            }

            // PointCoordinate Metrics
            foreach (var metric in testBench.Children.MetricCollection)
            {
                List <CyPhy.Point> points_list = new List <CyPhy.Point>();
                foreach (var pt in metric.SrcConnections.PointCoordinates2MetricCollection)
                {
                    points_list.Add(pt.SrcEnds.Point);
                }

                foreach (var pt in metric.DstConnections.PointCoordinates2MetricCollection)
                {
                    points_list.Add(pt.DstEnds.Point);
                }

                if (points_list.Any())
                {
                    if (points_list.Count() > 1)
                    {
                        Logger.Instance.AddLogMessage("Metric should not be connected to multiple Point datums in a test bench.", Severity.Error);
                    }

                    CyPhy.Point point = points_list.First();

                    PointMetricTraversal traverser = new PointMetricTraversal(point);
                    if (traverser.portsFound.Count() == 1)
                    {
                        TBComputation tbcomputation = new TBComputation();
                        tbcomputation.ComputationType    = TBComputation.Type.POINTCOORDINATES;
                        tbcomputation.MetricID           = metric.ID;
                        tbcomputation.RequestedValueType = "Vector";
                        tbcomputation.Details            = (traverser.portsFound.First() as CyPhy.Point).Attributes.DatumName;
                        tbcomputation.ComponentID        = CyPhyClasses.Component.Cast(traverser.portsFound.First().ParentContainer.ParentContainer.Impl).Attributes.InstanceGUID;
                        tbcomputation.MetricName         = metric.Name;
                        StaticAnalysisMetrics.Add(tbcomputation);
                    }
                }
            }

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