public StringBuilder Export(string pipeLineAbbreviation, HashSet <Element> elements, Document document)
        {
            Document doc   = document;
            string   key   = pipeLineAbbreviation;
            plst     pList = new plst();
            //paramList = new plst();
            //The list of fittings, sorted by TYPE then SKEY
            IList <Element> accessoriesList = elements.
                                              OrderBy(e => e.get_Parameter(pList.PCF_ELEM_TYPE.Guid).AsString()).
                                              ThenBy(e => e.get_Parameter(pList.PCF_ELEM_SKEY.Guid).AsString()).ToList();

            StringBuilder sbAccessories = new StringBuilder();

            //This is a workaround to try to determine what element caused an exception
            Element element = null;

            try
            {
                foreach (Element Element in accessoriesList)
                {
                    //This is a workaround to try to determine what element caused an exception
                    element = Element;
                    //If the Element Type field is empty -> ignore the component
                    if (string.IsNullOrEmpty(element.get_Parameter(pList.PCF_ELEM_TYPE.Guid).AsString()))
                    {
                        continue;
                    }

                    sbAccessories.AppendLine(element.get_Parameter(new plst().PCF_ELEM_TYPE.Guid).AsString());
                    sbAccessories.AppendLine("    COMPONENT-IDENTIFIER " + element.get_Parameter(new plst().PCF_ELEM_COMPID.Guid).AsInteger());

                    //Write Plant3DIso entries if turned on
                    if (InputVars.ExportToPlant3DIso)
                    {
                        sbAccessories.Append(Composer.Plant3DIsoWriter(element, doc));
                    }

                    //Cast the elements gathered by the collector to FamilyInstances
                    FamilyInstance familyInstance = (FamilyInstance)element;
                    Options        options        = new Options();
                    //MEPModel of the elements is accessed
                    MEPModel mepmodel = familyInstance.MEPModel;
                    //Get connector set for the element
                    ConnectorSet connectorSet = mepmodel.ConnectorManager.Connectors;

                    //Switch to different element type configurations
                    switch (element.get_Parameter(pList.PCF_ELEM_TYPE.Guid).AsString())
                    {
                    case ("FILTER"):
                        //Process endpoints of the component
                        Connector primaryConnector = null; Connector secondaryConnector = null;

                        foreach (Connector connector in connectorSet)
                        {
                            if (connector.GetMEPConnectorInfo().IsPrimary)
                            {
                                primaryConnector = connector;
                            }
                            if (connector.GetMEPConnectorInfo().IsSecondary)
                            {
                                secondaryConnector = connector;
                            }
                        }

                        //Process endpoints of the component
                        sbAccessories.Append(EndWriter.WriteEP1(element, primaryConnector));
                        sbAccessories.Append(EndWriter.WriteEP2(element, secondaryConnector));

                        break;

                    case ("INSTRUMENT"):
                        //Process endpoints of the component
                        primaryConnector = null; secondaryConnector = null;

                        foreach (Connector connector in connectorSet)
                        {
                            if (connector.GetMEPConnectorInfo().IsPrimary)
                            {
                                primaryConnector = connector;
                            }
                            if (connector.GetMEPConnectorInfo().IsSecondary)
                            {
                                secondaryConnector = connector;
                            }
                        }

                        //Process endpoints of the component
                        sbAccessories.Append(EndWriter.WriteEP1(element, primaryConnector));
                        sbAccessories.Append(EndWriter.WriteEP2(element, secondaryConnector));
                        sbAccessories.Append(EndWriter.WriteCP(familyInstance));

                        break;

                    case ("VALVE"):
                        goto case ("INSTRUMENT");

                    case ("VALVE-ANGLE"):
                        //Process endpoints of the component
                        primaryConnector = null; secondaryConnector = null;

                        foreach (Connector connector in connectorSet)
                        {
                            if (connector.GetMEPConnectorInfo().IsPrimary)
                            {
                                primaryConnector = connector;
                            }
                            if (connector.GetMEPConnectorInfo().IsSecondary)
                            {
                                secondaryConnector = connector;
                            }
                        }

                        //Process endpoints of the component
                        sbAccessories.Append(EndWriter.WriteEP1(element, primaryConnector));
                        sbAccessories.Append(EndWriter.WriteEP2(element, secondaryConnector));

                        //The centre point is obtained by creating an unbound line from primary connector and projecting the secondary point on the line.
                        XYZ  reverseConnectorVector = -primaryConnector.CoordinateSystem.BasisZ;
                        Line primaryLine            = Line.CreateUnbound(primaryConnector.Origin, reverseConnectorVector);
                        XYZ  centrePoint            = primaryLine.Project(secondaryConnector.Origin).XYZPoint;

                        sbAccessories.Append(EndWriter.WriteCP(centrePoint));

                        break;

                    case ("INSTRUMENT-DIAL"):
                        ////Process endpoints of the component
                        //primaryConnector = null;

                        //foreach (Connector connector in connectorSet) primaryConnector = connector;

                        ////Process endpoints of the component
                        //sbAccessories.Append(EndWriter.WriteEP1(element, primaryConnector));

                        ////The co-ords point is obtained by creating an unbound line from primary connector and taking an arbitrary point a long the line.
                        //reverseConnectorVector = -primaryConnector.CoordinateSystem.BasisZ.Multiply(0.656167979);
                        //XYZ coOrdsPoint = primaryConnector.Origin;
                        //Transform pointTranslation;
                        //pointTranslation = Transform.CreateTranslation(reverseConnectorVector);
                        //coOrdsPoint = pointTranslation.OfPoint(coOrdsPoint);

                        primaryConnector = null;
                        foreach (Connector connector in connectorSet)
                        {
                            primaryConnector = connector;
                        }
                        //Connector information extraction

                        sbAccessories.Append(EndWriter.WriteEP1(element, primaryConnector));

                        XYZ primConOrigin = primaryConnector.Origin;

                        //Analyses the geometry to obtain a point opposite the main connector.
                        //Extraction of the direction of the connector and reversing it
                        reverseConnectorVector = -primaryConnector.CoordinateSystem.BasisZ;
                        Line detectorLine = Line.CreateUnbound(primConOrigin, reverseConnectorVector);
                        //Begin geometry analysis
                        GeometryElement geometryElement = familyInstance.get_Geometry(options);

                        //Prepare resulting point
                        XYZ endPointAnalyzed = null;

                        foreach (GeometryObject geometry in geometryElement)
                        {
                            GeometryInstance instance = geometry as GeometryInstance;
                            if (null == instance)
                            {
                                continue;
                            }
                            foreach (GeometryObject instObj in instance.GetInstanceGeometry())
                            {
                                Solid solid = instObj as Solid;
                                if (null == solid || 0 == solid.Faces.Size || 0 == solid.Edges.Size)
                                {
                                    continue;
                                }
                                foreach (Face face in solid.Faces)
                                {
                                    IntersectionResultArray results = null;
                                    XYZ intersection           = null;
                                    SetComparisonResult result = face.Intersect(detectorLine, out results);
                                    if (result != SetComparisonResult.Overlap)
                                    {
                                        continue;
                                    }
                                    intersection = results.get_Item(0).XYZPoint;
                                    if (intersection.IsAlmostEqualTo(primConOrigin) == false)
                                    {
                                        endPointAnalyzed = intersection;
                                    }
                                }
                            }
                        }

                        sbAccessories.Append(EndWriter.WriteCO(endPointAnalyzed));

                        break;

                    case "SUPPORT":
                        primaryConnector = (from Connector c in connectorSet where c.GetMEPConnectorInfo().IsPrimary select c).FirstOrDefault();
                        sbAccessories.Append(EndWriter.WriteCO(familyInstance, primaryConnector));
                        break;

                    case "INSTRUMENT-3WAY":
                        //Sort connectors to primary, secondary and none
                        primaryConnector = null; secondaryConnector = null; Connector tertiaryConnector = null;

                        foreach (Connector connector in connectorSet)
                        {
                            if (connector.GetMEPConnectorInfo().IsPrimary)
                            {
                                primaryConnector = connector;
                            }
                            if (connector.GetMEPConnectorInfo().IsSecondary)
                            {
                                secondaryConnector = connector;
                            }
                            if ((connector.GetMEPConnectorInfo().IsPrimary == false) && (connector.GetMEPConnectorInfo().IsSecondary == false))
                            {
                                tertiaryConnector = connector;
                            }
                        }

                        //Process endpoints of the component
                        sbAccessories.Append(EndWriter.WriteEP1(element, primaryConnector));
                        sbAccessories.Append(EndWriter.WriteEP2(element, secondaryConnector));
                        sbAccessories.Append(EndWriter.WriteEP3(element, tertiaryConnector));
                        sbAccessories.Append(EndWriter.WriteCP(familyInstance));
                        break;
                    }

                    Composer elemParameterComposer = new Composer();
                    sbAccessories.Append(elemParameterComposer.ElemParameterWriter(element));

                    #region CII export
                    if (InputVars.ExportToCII && !string.Equals(element.get_Parameter(pList.PCF_ELEM_TYPE.Guid).AsString(), "SUPPORT"))
                    {
                        sbAccessories.Append(Composer.CIIWriter(doc, key));
                    }
                    #endregion

                    sbAccessories.Append("    UNIQUE-COMPONENT-IDENTIFIER ");
                    sbAccessories.Append(element.UniqueId);
                    sbAccessories.AppendLine();

                    //Process tap entries of the element if any
                    //Diameter Limit nullifies the tapsWriter output if the tap diameter is less than the limit so it doesn't get exported
                    if (string.IsNullOrEmpty(element.LookupParameter("PCF_ELEM_TAP1").AsString()) == false)
                    {
                        TapsWriter tapsWriter = new TapsWriter(element, "PCF_ELEM_TAP1", doc);
                        sbAccessories.Append(tapsWriter.tapsWriter);
                    }
                    if (string.IsNullOrEmpty(element.LookupParameter("PCF_ELEM_TAP2").AsString()) == false)
                    {
                        TapsWriter tapsWriter = new TapsWriter(element, "PCF_ELEM_TAP2", doc);
                        sbAccessories.Append(tapsWriter.tapsWriter);
                    }
                    if (string.IsNullOrEmpty(element.LookupParameter("PCF_ELEM_TAP3").AsString()) == false)
                    {
                        TapsWriter tapsWriter = new TapsWriter(element, "PCF_ELEM_TAP3", doc);
                        sbAccessories.Append(tapsWriter.tapsWriter);
                    }
                }
            }
            catch (Exception e)
            {
                throw new Exception("Element " + element.Id.IntegerValue.ToString() + " caused an exception: " + e.Message);
            }

            //// Clear the output file
            //System.IO.File.WriteAllBytes(InputVars.OutputDirectoryFilePath + "Accessories.pcf", new byte[0]);

            //// Write to output file
            //using (StreamWriter w = File.AppendText(InputVars.OutputDirectoryFilePath + "Accessories.pcf"))
            //{
            //    w.Write(sbAccessories);
            //    w.Close();
            //}
            return(sbAccessories);
        }
Exemplo n.º 2
0
        public StringBuilder Export(string pipeLineAbbreviation, HashSet <Element> elements, Document document)
        {
            Document doc   = document;
            string   key   = pipeLineAbbreviation;
            plst     pList = new plst();
            //paramList = new plst();
            //The list of fittings, sorted by TYPE then SKEY
            IList <Element> accessoriesList = elements.
                                              OrderBy(e => e.get_Parameter(pList.PCF_ELEM_TYPE.Guid).AsString()).
                                              ThenBy(e => e.get_Parameter(pList.PCF_ELEM_SKEY.Guid).AsString()).ToList();

            StringBuilder sbAccessories = new StringBuilder();

            //This is a workaround to try to determine what element caused an exception
            Element element = null;

            try
            {
                foreach (Element Element in accessoriesList)
                {
                    //This is a workaround to try to determine what element caused an exception
                    element = Element;

                    sbAccessories.AppendLine(element.get_Parameter(new plst().PCF_ELEM_TYPE.Guid).AsString());
                    sbAccessories.AppendLine("    COMPONENT-IDENTIFIER " + element.get_Parameter(new plst().PCF_ELEM_COMPID.Guid).AsString());

                    if (element.get_Parameter(new plst().PCF_ELEM_SPEC.Guid).AsString() == "EXISTING-INCLUDE")
                    {
                        sbAccessories.AppendLine("    STATUS DOTTED-UNDIMENSIONED");
                        sbAccessories.AppendLine("    MATERIAL-LIST EXCLUDE");
                    }

                    //Write Plant3DIso entries if turned on
                    if (InputVars.ExportToIsogen)
                    {
                        sbAccessories.Append(Composer.Plant3DIsoWriter(element, doc));
                    }

                    //Cast the elements gathered by the collector to FamilyInstances
                    FamilyInstance familyInstance = (FamilyInstance)element;
                    Options        options        = new Options();

                    //Gather connectors of the element
                    var cons = mp.GetConnectors(element);

                    //Switch to different element type configurations
                    switch (element.get_Parameter(pList.PCF_ELEM_TYPE.Guid).AsString())
                    {
                    case ("FILTER"):
                        //Process endpoints of the component
                        sbAccessories.Append(EndWriter.WriteEP1(element, cons.Primary));
                        sbAccessories.Append(EndWriter.WriteEP2(element, cons.Secondary));
                        sbAccessories.Append(pdw.ParameterValue("TAG", new[] { "TAG 1", "TAG 2", "TAG 3" }, element));
                        break;

                    case ("INSTRUMENT"):
                        //Process endpoints of the component
                        sbAccessories.Append(EndWriter.WriteEP1(element, cons.Primary));
                        sbAccessories.Append(EndWriter.WriteEP2(element, cons.Secondary));
                        sbAccessories.Append(EndWriter.WriteCP(familyInstance));
                        sbAccessories.Append(pdw.ParameterValue("TAG", new[] { "TAG 1", "TAG 2", "TAG 3" }, element));

                        break;

                    case ("VALVE"):
                        goto case ("INSTRUMENT");

                    case ("VALVE-ANGLE"):
                        //Process endpoints of the component
                        sbAccessories.Append(EndWriter.WriteEP1(element, cons.Primary));
                        sbAccessories.Append(EndWriter.WriteEP2(element, cons.Secondary));

                        //The centre point is obtained by creating an bound line from primary connector and projecting the secondary point on the line.
                        XYZ  reverseConnectorVector = -cons.Primary.CoordinateSystem.BasisZ;
                        Line primaryLine            = Line.CreateBound(cons.Primary.Origin, cons.Primary.Origin + reverseConnectorVector * 10);
                        XYZ  centrePoint            = primaryLine.Project(cons.Secondary.Origin).XYZPoint;

                        sbAccessories.Append(EndWriter.WriteCP(centrePoint));

                        sbAccessories.Append(pdw.ParameterValue("TAG", new[] { "TAG 1", "TAG 2", "TAG 3" }, element));

                        break;

                    case ("INSTRUMENT-DIAL"):

                        //Connector information extraction
                        sbAccessories.Append(EndWriter.WriteEP1(element, cons.Primary));

                        XYZ primConOrigin = cons.Primary.Origin;

                        //Analyses the geometry to obtain a point opposite the main connector.
                        //Extraction of the direction of the connector and reversing it
                        reverseConnectorVector = -cons.Primary.CoordinateSystem.BasisZ;
                        Line detectorLine = Line.CreateBound(primConOrigin, primConOrigin + reverseConnectorVector * 10);
                        //Begin geometry analysis
                        GeometryElement geometryElement = familyInstance.get_Geometry(options);

                        //Prepare resulting point
                        XYZ endPointAnalyzed = null;

                        foreach (GeometryObject geometry in geometryElement)
                        {
                            GeometryInstance instance = geometry as GeometryInstance;
                            if (null == instance)
                            {
                                continue;
                            }
                            foreach (GeometryObject instObj in instance.GetInstanceGeometry())
                            {
                                Solid solid = instObj as Solid;
                                if (null == solid || 0 == solid.Faces.Size || 0 == solid.Edges.Size)
                                {
                                    continue;
                                }
                                foreach (Face face in solid.Faces)
                                {
                                    IntersectionResultArray results = null;
                                    XYZ intersection = null;
                                    try
                                    {
                                        SetComparisonResult result = face.Intersect(detectorLine, out results);
                                        if (result != SetComparisonResult.Overlap)
                                        {
                                            continue;
                                        }
                                        intersection = results.get_Item(0).XYZPoint;
                                        if (intersection.IsAlmostEqualTo(primConOrigin) == false)
                                        {
                                            endPointAnalyzed = intersection;
                                        }
                                    }
                                    catch (Exception)
                                    {
                                        continue;
                                    }
                                }
                            }
                        }

                        //If the point is still null after geometry intersection, it means the analysis failed
                        //Create an artificial point
                        if (endPointAnalyzed == null)
                        {
                            endPointAnalyzed = cons.Primary.Origin + reverseConnectorVector * 2;
                        }

                        sbAccessories.Append(EndWriter.WriteCO(endPointAnalyzed));
                        sbAccessories.Append(pdw.ParameterValue("TAG", new[] { "TAG 1", "TAG 2", "TAG 3" }, element));
                        break;

                    case "SUPPORT":
                        sbAccessories.Append(EndWriter.WriteCO(familyInstance, cons.Primary));
                        sbAccessories.Append(pdw.ParameterValue("TAG", new[] { "TAG 1", "TAG 2", "TAG 3" }, element));
                        break;

                    case "FLOOR-SYMBOL":
                        sbAccessories.Append(EndWriter.WriteCO(familyInstance));
                        break;

                    case "INSTRUMENT-3WAY":
                        //Process endpoints of the component
                        sbAccessories.Append(EndWriter.WriteEP1(element, cons.Primary));
                        sbAccessories.Append(EndWriter.WriteEP2(element, cons.Secondary));
                        sbAccessories.Append(EndWriter.WriteEP3(element, cons.Tertiary));
                        sbAccessories.Append(EndWriter.WriteCP(familyInstance));
                        break;
                    }

                    Composer elemParameterComposer = new Composer();
                    sbAccessories.Append(elemParameterComposer.ElemParameterWriter(element));

                    #region CII export
                    if (InputVars.ExportToCII && !string.Equals(element.get_Parameter(pList.PCF_ELEM_TYPE.Guid).AsString(), "SUPPORT"))
                    {
                        sbAccessories.Append(Composer.CIIWriter(doc, key));
                    }
                    #endregion

                    sbAccessories.Append("    UNIQUE-COMPONENT-IDENTIFIER ");
                    sbAccessories.Append(element.UniqueId);
                    sbAccessories.AppendLine();

                    //Process tap entries of the element if any
                    //Diameter Limit nullifies the tapsWriter output if the tap diameter is less than the limit so it doesn't get exported
                    if (string.IsNullOrEmpty(element.LookupParameter("PCF_ELEM_TAP1").AsString()) == false)
                    {
                        TapsWriter tapsWriter = new TapsWriter(element, "PCF_ELEM_TAP1", doc);
                        sbAccessories.Append(tapsWriter.tapsWriter);
                    }
                    if (string.IsNullOrEmpty(element.LookupParameter("PCF_ELEM_TAP2").AsString()) == false)
                    {
                        TapsWriter tapsWriter = new TapsWriter(element, "PCF_ELEM_TAP2", doc);
                        sbAccessories.Append(tapsWriter.tapsWriter);
                    }
                    if (string.IsNullOrEmpty(element.LookupParameter("PCF_ELEM_TAP3").AsString()) == false)
                    {
                        TapsWriter tapsWriter = new TapsWriter(element, "PCF_ELEM_TAP3", doc);
                        sbAccessories.Append(tapsWriter.tapsWriter);
                    }
                }
            }
            catch (Exception e)
            {
                throw new Exception("Element " + element.Id.IntegerValue.ToString() + " caused an exception: " + e.Message);
            }

            //// Clear the output file
            //System.IO.File.WriteAllBytes(InputVars.OutputDirectoryFilePath + "Accessories.pcf", new byte[0]);

            //// Write to output file
            //using (StreamWriter w = File.AppendText(InputVars.OutputDirectoryFilePath + "Accessories.pcf"))
            //{
            //    w.Write(sbAccessories);
            //    w.Close();
            //}
            return(sbAccessories);
        }