using System;
using System.Collections.Generic;
using System.Linq;
using Autodesk.Revit.UI;
using Autodesk.Revit.DB;
using Autodesk.Revit.DB.Plumbing;
using Autodesk.Revit.UI.Selection;
using System.Windows.Forms;
using KDCS.Utils;

namespace KMBIM
{
    [Autodesk.Revit.Attributes.Transaction(Autodesk.Revit.Attributes.TransactionMode.Manual)]
    class PipeC2CDim : IExternalCommand
    {
        UIApplication uiapp;
        UIDocument uidoc;
        Autodesk.Revit.DB.Document doc;
        Autodesk.Revit.Creation.Application creApp;
        Autodesk.Revit.Creation.Document creDoc;
        Autodesk.Revit.DB.View view;
        ExternalCommandData m_commandData;
        List<ElementId> m_ElemIDLst = new List<ElementId>();
        List<ElementId> m_MainElemIDLst1 = new List<ElementId>();//선택한 파이프의 시작점 방향 커넥터 모음
        List<ElementId> m_MainElemIDLst2 = new List<ElementId>();//선택한 파이프의 끝점 방향 커넥터 모음

        public Autodesk.Revit.UI.Result Execute(ExternalCommandData commandData, ref string message, ElementSet elements)
        {
            uiapp = commandData.Application;
            uidoc = uiapp.ActiveUIDocument;
            doc = uidoc.Document;
            m_commandData = commandData;
            creApp = uiapp.Application.Create;
            creDoc = doc.Create;
            view = doc.ActiveView;

            try
            {
                //파이프 선택                
                Reference pipeRef = uidoc.Selection.PickObject(ObjectType.Element, new PipeSelectionFilter(), "치수 기입할 배관 선택 : ");
                //Reference pipeRef = uidoc.Selection.PickObject(ObjectType.Element, "치수 기입할 배관 선택 : ");
                //IList<Reference> refs = uidoc.Selection.PickObjects(ObjectType.Element, "치수 기입 : ");
                //방향 지정
                XYZ directPt = null;
                Util.PickPoint(uidoc, "치수 방향을 지정하세요.", ref directPt);


                if (pipeRef == null || directPt == null) return Result.Succeeded;


                Pipe pipe = doc.GetElement(pipeRef) as Pipe;

                XYZ sp1 = null, ep1 = null;
                Util.GetStartEndPoint(pipe, ref sp1, ref ep1);
                XYZ FlowVec = (ep1 - sp1).Normalize();//시작-끝 방향 Vector
                XYZ ReverseVec = (sp1 - ep1).Normalize(); // 시작-끝 역방향 Vector


                bool isRight = Util.isRightPoint(directPt, sp1, ep1);

                //선택한 파이프의 시작점 방향 커넥터 모음에 선택파이프 추가
                m_MainElemIDLst1.Add(pipe.Id);

                ConnectorSet connectorSet = pipe.ConnectorManager.Connectors;
                Connector NextCon = null;
                int LoopMax = 0;
                int ConNum = 1;//파이프 2개의 커넥터 방향 나누기 위해

                foreach (Connector con in connectorSet)
                {
                    Connector LoopCon = null;
                    LoopCon = con;
                    bool b_Elbow = false;
                    //Pyosi(LoopCon.Origin, 1);
                    //MessageBox.Show("loopcon");

                    //메인 객체의 양 끝 방향의 객체 리스트에 저장.
                    while (true)
                    {
                        NextCon = GetConnected(LoopCon, ConNum, FlowVec, ReverseVec, ref b_Elbow, ref m_MainElemIDLst1, ref m_MainElemIDLst2);

                        //다음 객체의 정,역방향 커넥터가 없거나 엘보일 경우
                        if (NextCon == null || b_Elbow == true)
                            break;
                        else
                            LoopCon = NextCon;

                        //Pyosi(NextCon.Origin, 1);
                        //MessageBox.Show("nextcon");

                        LoopMax++;
                        if (LoopMax > 1000) break;

                    }//while end
                    ConNum++;
                }//foreach end

                //선택 파이프 중심 양쪽 모인 메인관들 리스트 1개로 합침.
                m_MainElemIDLst2.Reverse();
                m_ElemIDLst.AddRange(m_MainElemIDLst2);
                m_ElemIDLst.AddRange(m_MainElemIDLst1);

                List<Reference> m_ReferLst = new List<Reference>();
                List<XYZ> m_RefptLst = new List<XYZ>();

                for (int i = 0; i < m_ElemIDLst.Count(); i++)
                {
                    Element elem = doc.GetElement(m_ElemIDLst[i]);
                    Reference refer = null;
                    m_RefptLst.Clear();
                    m_ReferLst.Clear();
                    if (elem is Pipe)
                    {
                        ConnectorSet conSet = (elem as Pipe).ConnectorManager.Connectors;

                        foreach (Connector con in conSet)
                        {
                            //메인 파이프의 양끝 커넥터에 90도인 파이프 찾기.
                            XYZ referPoint = null;
                            refer = GetBranchElement2(con, FlowVec, ReverseVec, ref referPoint);
                            if (refer != null)
                            {
                                m_ReferLst.Add(refer);
                                m_RefptLst.Add(con.Origin);                                
                            }
                        }

                        if(m_ReferLst.Count() == 2 && m_RefptLst.Count() == 2)
                        {
                            CreateDim(isRight,directPt,m_RefptLst,m_ReferLst);

                            using (Transaction trans = new Transaction(doc))
                            {
                                trans.Start("123");

                                XYZ RotVec = Util.RotateVector(FlowVec, Util.DTR(90.0));
                                XYZ plrPt = Util.Polar(m_RefptLst.First(), RotVec, Unit.MMToFeet(500));

                                XYZ bubbleEnd = new XYZ(m_RefptLst.First().X, m_RefptLst.First().Y, 0);   // bubble end applied to reference plane

                                XYZ freeEnd = new XYZ(plrPt.X, plrPt.Y, 0);    // free end applied to reference plane
                                                                               // Third point should not be on the bubbleEnd-freeEnd line 
                                XYZ thirdPnt = new XYZ(plrPt.X, plrPt.Y, 1);   // 3rd point to define reference plane

                                // Create the reference plane in X-Y, applying the active view
                                ReferencePlane refPlane = doc.Create.NewReferencePlane2(bubbleEnd, freeEnd, thirdPnt, doc.ActiveView);

                                RotVec = Util.RotateVector(FlowVec, Util.DTR(90.0));
                                plrPt = Util.Polar(m_RefptLst[1], RotVec, Unit.MMToFeet(500));

                                bubbleEnd = new XYZ(m_RefptLst[1].X, m_RefptLst[1].Y, 0);   // bubble end applied to reference plane

                                freeEnd = new XYZ(plrPt.X, plrPt.Y, 0);    // free end applied to reference plane
                                                                           // Third point should not be on the bubbleEnd-freeEnd line 
                                thirdPnt = new XYZ(plrPt.X, plrPt.Y, 1);   // 3rd point to define reference plane

                                // Create the reference plane in X-Y, applying the active view
                                refPlane = doc.Create.NewReferencePlane2(bubbleEnd, freeEnd, thirdPnt, doc.ActiveView);

                                trans.Commit();
                            }

                        }

                    }

                }

                //싱과 싱 길이 치수 생성
                //for (int i = 0; i < m_ElemIDLst.Count; i++)
                //{
                //    if (m_ReferLst.Count() >= 2) m_ReferLst.Clear();
                //    if (m_RefptLst.Count() >= 2) m_RefptLst.Clear();
                //    Element elem = doc.GetElement(m_ElemIDLst[i]);
                //    Reference refer = null;

                //    if (elem is Pipe)
                //    {
                //        ConnectorSet conSet = (elem as Pipe).ConnectorManager.Connectors;

                //        foreach (Connector con in conSet)//파이프 커넥터 2개
                //        {
                //            //메인 파이프의 양끝 커넥터에 90도인 파이프 찾기.
                //            XYZ referPoint = null;
                //            refer = GetBranchElement2(con, FlowVec, ReverseVec, ref referPoint);
                //            if (refer != null)
                //            {
                //                m_ReferLst.Add(refer);
                //                m_RefptLst.Add(con.Origin);
                //            }

                //            //if (referPoint != null)
                //            //    m_RefptLst.Add(referPoint);      

                //        }

                //        if(m_ReferLst.Count() == 2 && m_RefptLst.Count() == 2)
                //        {
                //            CreateDim(isRight, directPt, m_RefptLst, m_ReferLst);
                //        }

                //    }
                //}                

                //MessageBox.Show("개수: " + m_ReferLst.Count());
            }
            catch (Exception e)
            {
                MessageBox.Show("" + e);
            }


            return Result.Succeeded;
        }

        //캡 reference 구하기.
        public Reference GetCapReference(Element elem)
        {
            Reference resRef = null;
            if (elem is FamilyInstance)
            {
                FamilyInstance family = elem as FamilyInstance;
                Parameter param = family.Symbol.Family.get_Parameter(BuiltInParameter.FAMILY_CONTENT_PART_TYPE);
                //캡
                if ((PartType)param.AsInteger() == PartType.Cap)
                {
                    GeometryElement gElem = family.get_Geometry(NewOptions());
                    GeometryInstance gInst = gElem.First() as GeometryInstance;

                    foreach (var Geo in family.get_Geometry(NewOptions()))
                    {
                        if (!(Geo is GeometryInstance)) continue;

                        GeometryElement gSymbol = (Geo as GeometryInstance).GetSymbolGeometry();
                        if (gSymbol != null && gSymbol.Count() > 0)
                        {
                            Solid solid = gSymbol.First() as Solid;
                            ReferenceArray referLst = new ReferenceArray();


                            foreach (Face face in solid.Faces)
                            {
                                PlanarFace planarFace = face as PlanarFace;
                                if (planarFace == null) continue;
                                //referLst.Append(planarFace.Reference);
                                if (planarFace.FaceNormal.X > 0)
                                {
                                    resRef = planarFace.Reference;
                                    return resRef;
                                }
                            }
                        }
                    }
                }
            }


            return resRef;
        }

        //레듀셔의 좁은쪽 reference 구하기.
        public Reference GetReducerReference(Element elem)
        {
            Reference resRef = null;
            if (elem is FamilyInstance)
            {
                FamilyInstance family = elem as FamilyInstance;
                Parameter param = family.Symbol.Family.get_Parameter(BuiltInParameter.FAMILY_CONTENT_PART_TYPE);
                //레듀셔일 때
                if ((PartType)param.AsInteger() == PartType.Transition)
                {
                    ConnectorSet FamilyConSet = family.MEPModel.ConnectorManager.Connectors;
                    List<Connector> m_ConLst = new List<Connector>();
                    foreach (Connector familyCon in FamilyConSet)
                        m_ConLst.Add(familyCon);

                    Connector resCon = null;
                    if (m_ConLst[0].Radius > m_ConLst[1].Radius)
                        resCon = m_ConLst[1];
                    else
                        resCon = m_ConLst[0];
                    //레듀셔의 작은쪽에 붙은 객체 찾기.
                    Connector NextCon = GetNextElementConnector(resCon);
                    //레듀셔 다음 객체가 파이프면 작도 아니면 작도X
                    if (!(NextCon.Owner is Pipe))
                        return resRef;
                    foreach (var geoobj in (NextCon.Owner).get_Geometry(NewOptions()))
                    {
                        Curve cv = geoobj as Curve;
                        if (cv == null) continue;

                        if (cv.GetEndPoint(0).IsAlmostEqualTo(NextCon.Origin, Unit.MMToFeet(0.01)))
                        {
                            resRef = cv.GetEndPointReference(0);//ra.Append(cv.GetEndPointReference(0));
                            //Pyosi(NextCon.Origin, 1);
                            //MessageBox.Show("Reducer");
                        }
                        else if (cv.GetEndPoint(1).IsAlmostEqualTo(NextCon.Origin, Unit.MMToFeet(0.01)))
                        {
                            resRef = cv.GetEndPointReference(1);
                            //Pyosi(NextCon.Origin, 1);
                            //MessageBox.Show("Reducer");
                        }

                    }
                }
            }

            return resRef;
        }

        public Reference GetBranchElement2(Connector CurCon, XYZ FlowVec, XYZ ReverseVec, ref XYZ referPt)
        {
            Reference resRef = null;

            if (CurCon.IsConnected == true)
            {
                //파이프 커넥터에 붙은 객체
                Connector PipeNextCon = Util.GetNextElementConnector(CurCon);

                bool b_reducer = Util.GetFamilyPartType(PipeNextCon, PartType.Transition);
                bool b_Cap = Util.GetFamilyPartType(PipeNextCon, PartType.Cap);
                bool b_valve = Util.GetFamilyPartType(PipeNextCon, PartType.ValveNormal);
                bool b_BRKvalve = Util.GetFamilyPartType(PipeNextCon, PartType.ValveBreaksInto);
                bool b_Tee = Util.GetFamilyPartType(PipeNextCon, PartType.Tee);
                bool b_LateralTee = Util.GetFamilyPartType(PipeNextCon, PartType.LateralTee);
                bool b_Elbow = Util.GetFamilyPartType(PipeNextCon, PartType.Elbow);
                bool b_Cross = Util.GetFamilyPartType(PipeNextCon, PartType.Cross);
                bool b_LateralCross = Util.GetFamilyPartType(PipeNextCon, PartType.LateralCross);

                if (b_reducer)
                {
                    Connector ReducerOtherCon = Util.GetOtherConnector(PipeNextCon);
                    Connector ReducerNextCon = Util.GetNextElementConnector(ReducerOtherCon);
                    //레듀셔 옆에 바로 T,Elbow,Cross가 붙은 경우
                    if (ReducerNextCon.Owner is FamilyInstance)
                    {
                        //레듀셔 옆 객체가 Tee 또는 Elbow , Cross 일 경우
                        if (Util.GetFamilyPartType(ReducerNextCon, PartType.Tee)
                            || Util.GetFamilyPartType(ReducerNextCon, PartType.Elbow)
                            || Util.GetFamilyPartType(ReducerNextCon, PartType.Cross))
                        {
                            //벡터방향이 아닌 커넥터 구하기
                            Connector ClosestCon = GetBranchConnector(ReducerNextCon, FlowVec, ReverseVec);
                            Connector ClosestNextCon = null;

                            int cnt = 0;
                            while (true)
                            {
                                if (ClosestCon != null)
                                    ClosestNextCon = Util.GetNextElementConnector(ClosestCon);

                                if (ClosestNextCon != null && ClosestNextCon.Owner is Pipe)
                                {
                                    resRef = GetElementPointReference(ClosestNextCon.Owner, ClosestNextCon);
                                    referPt = ClosestNextCon.Origin;
                                    Connector ClosestNextOtherCon = Util.GetOtherConnector(ClosestNextCon);

                                    
                                    //Util.Pyosi(doc, referPt, 1);
                                    //MessageBox.Show("1123");
                                    break;
                                }
                                else
                                {
                                    Connector NextOtherCon = Util.GetOtherConnector(ClosestNextCon);
                                    ClosestCon = Util.GetNextElementConnector(NextOtherCon);
                                }

                                cnt++;
                                if (cnt > 20) break;
                            }//while end

                        }
                    }
                }
                else if (b_Cap)
                {
                    resRef = GetCapReference(PipeNextCon.Owner);
                    referPt = PipeNextCon.Origin;
                }
                else if (b_valve || b_BRKvalve)
                    return resRef;
                else if(b_Elbow || b_Tee || b_Cross || b_LateralTee || b_LateralCross)
                {
                    //벡터방향이 아닌 커넥터 구하기
                    Connector ClosestCon = GetBranchConnector(PipeNextCon, FlowVec, ReverseVec);
                    Connector ClosestNextCon = null;

                    int cnt = 0;
                    while (true)
                    {
                        if (ClosestCon != null)
                            ClosestNextCon = Util.GetNextElementConnector(ClosestCon);

                        if (ClosestNextCon != null && ClosestNextCon.Owner is Pipe)
                        {
                            resRef = GetElementPointReference(ClosestNextCon.Owner, ClosestNextCon);
                            referPt = ClosestNextCon.Origin;
                            Connector ClosestNextOtherCon = Util.GetOtherConnector(ClosestNextCon);

                            break;
                        }
                        else
                        {
                            Connector NextOtherCon = Util.GetOtherConnector(ClosestNextCon);
                            ClosestCon = Util.GetNextElementConnector(NextOtherCon);
                        }

                        cnt++;
                        if (cnt > 20) break;
                    }//while end
                }

            }
            else
            {
                //파이프 커넥터에 객체가 부착되지 않은 경우 파이프를 저장.
                resRef = GetElementPointReference(CurCon.Owner, CurCon);
                referPt = CurCon.Origin;
                //Pyosi(CurCon.Origin, 1);
                //MessageBox.Show("부착 없는 파이프");
            }

            return resRef;
        }
        
        //Tee Elbow Cross의 FlowVec,ReverseVec 방향이 아닌 커넥터를 구함.
        public Connector GetBranchConnector(Connector baseCon, XYZ FlowVec, XYZ ReverseVec)
        {
            Connector resCon = null;
            ConnectorSet ConSet = null;
            MEPSystem mEPSystem = baseCon.MEPSystem;
            FamilyInstance family = null;
            Pipe pipe = null;

            if (baseCon.Owner is FamilyInstance)
            {
                family = baseCon.Owner as FamilyInstance;
                ConSet = family.MEPModel.ConnectorManager.Connectors;
            }
            else if (baseCon.Owner is Pipe)
            {
                pipe = baseCon.Owner as Pipe;
                ConSet = pipe.ConnectorManager.Connectors;
            }

            bool b_reducer = GetFamilyPartType(baseCon, PartType.Transition);
            //객체가 레듀셔일 경우

            foreach (Connector con in ConSet)
            {
                if (baseCon.Origin.IsAlmostEqualTo(con.Origin, Unit.MMToFeet(0.01))) continue;
                XYZ CurVec = (con.Origin - baseCon.Origin).Normalize();
                if (!(CurVec.IsAlmostEqualTo(FlowVec, Unit.MMToFeet(0.01)) || CurVec.IsAlmostEqualTo(ReverseVec, Unit.MMToFeet(0.01))))
                    resCon = con;
            }

            return resCon;
        }

        public void CreateDim(bool isRight, XYZ DirectPt, List<XYZ> m_PtLst, List<Reference> m_ReferLst)
        {
            if (m_PtLst.Count == 2)
            {
                XYZ p1 = null, p2 = null, plrpt1 = null, plrpt2 = null, p1DstPlr = null, p2DstPlr = null, closePt = null;
                XYZ vec = null;
                bool LoopIsRight = Util.isRightPoint(DirectPt, m_PtLst[0], m_PtLst[1]);
                if (LoopIsRight == isRight)
                {
                    p1 = m_PtLst[0];
                    p2 = m_PtLst[1];
                }
                else
                {
                    p1 = m_PtLst[1];
                    p2 = m_PtLst[0];
                }

                p1DstPlr = Util.Polar(p1, (p1 - p2).Normalize(), 100000);
                p2DstPlr = Util.Polar(p2, (p2 - p1).Normalize(), 100000);

                if (isRight == true)
                {
                    vec = Util.RotateVector(p2, p1, Util.kPi / 2);
                    plrpt1 = Util.Polar(p1, vec, GetShortestDistance(DirectPt, p1DstPlr, p2DstPlr, out closePt));
                    plrpt2 = Util.Polar(p2, vec, GetShortestDistance(DirectPt, p1DstPlr, p2DstPlr, out closePt));
                }
                else
                {
                    vec = Util.RotateVector(p1, p2, Util.kPi / 2);
                    plrpt1 = Util.Polar(p1, vec, GetShortestDistance(DirectPt, p1DstPlr, p2DstPlr, out closePt));
                    plrpt2 = Util.Polar(p2, vec, GetShortestDistance(DirectPt, p1DstPlr, p2DstPlr, out closePt));
                }

                using (Transaction trans = new Transaction(doc))
                {
                    trans.Start("dim");
                    ReferenceArray ra = new ReferenceArray();
                    ra.Append(m_ReferLst[0]);
                    ra.Append(m_ReferLst[1]);
                    Line newLine = Line.CreateBound(plrpt1, plrpt2);
                    Dimension newDim = doc.Create.NewDimension(view, newLine, ra);
                    trans.Commit();
                }
            }


        }

        public void CreateDim(Pipe pipe, Element Elem1, Element Elem2, bool isRight, XYZ DirectPt, List<ElementId> m_ElemIDLst)
        {
            SketchPlane geometryPlane = view.SketchPlane;

            XYZ sp1 = null, sp2 = null, ep1 = null, ep2 = null, p1 = null, p2 = null;
            Util.GetStartEndPoint(pipe, ref p1, ref p2);
            Util.GetStartEndPoint(Elem1 as Pipe, ref sp1, ref ep1);
            Util.GetStartEndPoint(Elem2 as Pipe, ref sp2, ref ep2);
            XYZ vec = null;
            XYZ plrpt1 = null, plrpt2 = null, p1DstPlr = null, p2DstPlr = null;

            bool LoopIsRight = Util.isRightPoint(DirectPt, p1, p2);
            XYZ chgPt = null, closePt = null;
            //기준 파이프의 점방향과 현재 파이프의 점방향이 다르면 sp,ep 바꾸기
            if (isRight != LoopIsRight)
            {
                chgPt = p1;
                p1 = p2;
                p2 = chgPt;
            }

            p1DstPlr = Util.Polar(p1, (p1 - p2).Normalize(), 100000);
            p2DstPlr = Util.Polar(p2, (p2 - p1).Normalize(), 100000);

            if (isRight == true)
            {
                vec = Util.RotateVector(p2, p1, Util.kPi / 2);
                plrpt1 = Util.Polar(p1, vec, GetShortestDistance(DirectPt, p1DstPlr, p2DstPlr, out closePt) + Unit.MMToFeet(1000));
                plrpt2 = Util.Polar(p2, vec, GetShortestDistance(DirectPt, p1DstPlr, p2DstPlr, out closePt) + Unit.MMToFeet(1000));
            }
            else
            {
                vec = Util.RotateVector(p1, p2, Util.kPi / 2);
                plrpt1 = Util.Polar(p1, vec, GetShortestDistance(DirectPt, p1DstPlr, p2DstPlr, out closePt) + Unit.MMToFeet(1000));
                plrpt2 = Util.Polar(p2, vec, GetShortestDistance(DirectPt, p1DstPlr, p2DstPlr, out closePt) + Unit.MMToFeet(1000));
            }

            Line newLine = Line.CreateBound(plrpt1, plrpt2);
            Options opt = new Options();
            opt.ComputeReferences = true;
            opt.IncludeNonVisibleObjects = true;
            opt.View = doc.ActiveView;
            ReferenceArray ra = new ReferenceArray();
            //메인관의 파이프인 경우
            if (m_ElemIDLst.Contains(Elem1.Id) && Elem1 is Pipe)
            {
                Connector NotCon = GetIsNotConnected(Elem1 as Pipe);
                //Pyosi(NotCon.Origin, 1);
                //MessageBox.Show("NotCon in Elem1");
                //Connector NextCon = GetNextElementConnector(NotCon);

                if (GetFamilyPartType(NotCon, PartType.Cap))
                {
                    //Pyosi(NotCon.Origin, 1);
                    //MessageBox.Show("NextCon in Elem1");
                    Reference refer = GetCapReference(NotCon);
                    ra.Append(refer);
                }
                else
                {
                    foreach (var geoobj in (Elem1 as Pipe).get_Geometry(opt))
                    {
                        Curve cv = geoobj as Curve;
                        if (cv == null) continue;
                        if (cv.GetEndPoint(0).IsAlmostEqualTo(NotCon.Origin, Unit.MMToFeet(0.01)))
                            ra.Append(cv.GetEndPointReference(0));
                        else if (cv.GetEndPoint(1).IsAlmostEqualTo(NotCon.Origin, Unit.MMToFeet(0.01)))
                            ra.Append(cv.GetEndPointReference(1));
                    }
                }



            }
            else
            {
                if (Elem1 is Pipe)
                {
                    foreach (var geoobj in (Elem1 as Pipe).get_Geometry(opt))
                    {
                        Curve cv = geoobj as Curve;
                        if (cv == null) continue;
                        ra.Append(cv.Reference);
                    }
                }
                else
                {//패밀리인 경우
                    if (Elem1 is FamilyInstance)
                    {
                        ConnectorSet FamilyConSet = (Elem1 as FamilyInstance).MEPModel.ConnectorManager.Connectors;
                        List<Connector> m_ConLst = new List<Connector>();
                        foreach (Connector familyCon in FamilyConSet)
                            m_ConLst.Add(familyCon);

                        //첫번째 객체가 패밀리이면서 레듀셔일 떄
                        if (GetFamilyPartType(m_ConLst.First(), PartType.Transition))
                        {
                            Connector resCon = null;
                            if (m_ConLst[0].Radius > m_ConLst[1].Radius)
                                resCon = m_ConLst[1];
                            else
                                resCon = m_ConLst[0];
                            //////
                            //Pyosi(resCon.Origin, 1);
                            //MessageBox.Show("1");
                            //레듀셔의 작은쪽에 붙은 객체 찾기.
                            Connector NextCon = GetNextElementConnector(resCon);
                            //레듀셔 다음 객체가 파이프면 작도 아니면 작도X
                            if (!(NextCon.Owner is Pipe))
                                return;
                            foreach (var geoobj in (NextCon.Owner).get_Geometry(opt))
                            {
                                Curve cv = geoobj as Curve;
                                if (cv == null) continue;

                                if (cv.GetEndPoint(0).IsAlmostEqualTo(NextCon.Origin, Unit.MMToFeet(0.01)))
                                    ra.Append(cv.GetEndPointReference(0));
                                else if (cv.GetEndPoint(1).IsAlmostEqualTo(NextCon.Origin, Unit.MMToFeet(0.01)))
                                    ra.Append(cv.GetEndPointReference(1));
                            }
                        }

                    }
                }
            }
            //메인관의 파이프인 경우
            if (m_ElemIDLst.Contains(Elem2.Id) && Elem2 is Pipe)
            {
                Connector NotCon = GetIsNotConnected(Elem2 as Pipe);

                if (GetFamilyPartType(NotCon, PartType.Cap))
                {
                    Reference refer = GetCapReference(NotCon);
                    ra.Append(refer);
                }
                else
                {
                    foreach (var geoobj in (Elem2 as Pipe).get_Geometry(opt))
                    {
                        Curve cv = geoobj as Curve;
                        if (cv == null) continue;
                        if (cv.GetEndPoint(0).IsAlmostEqualTo(NotCon.Origin, Unit.MMToFeet(0.01)))
                            ra.Append(cv.GetEndPointReference(0));
                        else if (cv.GetEndPoint(1).IsAlmostEqualTo(NotCon.Origin, Unit.MMToFeet(0.01)))
                            ra.Append(cv.GetEndPointReference(1));
                    }
                }

            }
            else
            {
                if (Elem2 is Pipe)
                {
                    foreach (var geoobj in (Elem2 as Pipe).get_Geometry(opt))
                    {
                        Curve cv = geoobj as Curve;
                        if (cv == null) continue;
                        ra.Append(cv.Reference);
                    }
                }
                else
                {
                    if (Elem2 is FamilyInstance)
                    {
                        ConnectorSet FamilyConSet = (Elem2 as FamilyInstance).MEPModel.ConnectorManager.Connectors;
                        List<Connector> m_ConLst = new List<Connector>();
                        foreach (Connector familyCon in FamilyConSet)
                            m_ConLst.Add(familyCon);

                        //첫번째 객체가 패밀리이면서 레듀셔일 떄
                        if (GetFamilyPartType(m_ConLst.First(), PartType.Transition))
                        {
                            Connector resCon = null;
                            if (m_ConLst[0].Radius > m_ConLst[1].Radius)
                                resCon = m_ConLst[1];
                            else
                                resCon = m_ConLst[0];
                            //////
                            //Pyosi(resCon.Origin, 1);
                            //MessageBox.Show("2");
                            //레듀셔의 작은쪽에 붙은 객체 찾기.
                            Connector NextCon = GetNextElementConnector(resCon);
                            //레듀셔 다음 객체가 파이프면 작도 아니면 작도X
                            if (!(NextCon.Owner is Pipe))
                                return;
                            foreach (var geoobj in (NextCon.Owner).get_Geometry(opt))
                            {
                                Curve cv = geoobj as Curve;
                                if (cv == null) continue;

                                if (cv.GetEndPoint(0).IsAlmostEqualTo(NextCon.Origin, Unit.MMToFeet(0.01)))
                                    ra.Append(cv.GetEndPointReference(0));
                                else if (cv.GetEndPoint(1).IsAlmostEqualTo(NextCon.Origin, Unit.MMToFeet(0.01)))
                                    ra.Append(cv.GetEndPointReference(1));
                            }
                        }

                    }
                }
            }



            using (Transaction trans = new Transaction(doc))
            {
                trans.Start("CreateDimension");
                //MessageBox.Show("count : " + ra.Size);
                Dimension newDim = doc.Create.NewDimension(view, newLine, ra);
                trans.Commit();
            }


        }


        private double GetShortestDistance(XYZ point, XYZ listStartPoint, XYZ lineEndPoint, out XYZ closestPoint)

        {
            double dx = lineEndPoint.X - listStartPoint.X;
            double dy = lineEndPoint.Y - listStartPoint.Y;

            if ((dx == 0) && (dy == 0))
            {
                closestPoint = listStartPoint;
                dx = point.X - listStartPoint.X;
                dy = point.Y - listStartPoint.Y;
                return Math.Sqrt(dx * dx + dy * dy);
            }

            double t = ((point.X - listStartPoint.X) * dx + (point.Y - listStartPoint.Y) * dy) / (dx * dx + dy * dy);

            if (t < 0)
            {
                closestPoint = new XYZ(listStartPoint.X, listStartPoint.Y, listStartPoint.Z);
                dx = point.X - listStartPoint.X;
                dy = point.Y - listStartPoint.Y;
            }
            else if (t > 1)
            {
                closestPoint = new XYZ(lineEndPoint.X, lineEndPoint.Y, listStartPoint.Z);
                dx = point.X - lineEndPoint.X;
                dy = point.Y - lineEndPoint.Y;
            }
            else
            {
                closestPoint = new XYZ(listStartPoint.X + t * dx, listStartPoint.Y + t * dy, listStartPoint.Z);
                dx = point.X - closestPoint.X;
                dy = point.Y - closestPoint.Y;
            }

            return Math.Sqrt(dx * dx + dy * dy);

        }

        public Reference GetCapReference(Connector BaseCon)
        {
            Reference refer = null;

            FamilyInstance family = BaseCon.Owner as FamilyInstance;
            Options opt = new Options();
            opt.ComputeReferences = true;
            opt.IncludeNonVisibleObjects = true;
            opt.View = doc.ActiveView;

            GeometryElement gElem = family.get_Geometry(opt);
            GeometryInstance gInst = gElem.First() as GeometryInstance;

            foreach (var Geo in family.get_Geometry(opt))
            {
                if (!(Geo is GeometryInstance)) continue;

                GeometryElement gSymbol = (Geo as GeometryInstance).GetSymbolGeometry();
                if (gSymbol != null && gSymbol.Count() > 0)
                {
                    Solid solid = gSymbol.First() as Solid;
                    ReferenceArray referLst = new ReferenceArray();


                    foreach (Face face in solid.Faces)
                    {
                        PlanarFace planarFace = face as PlanarFace;
                        if (planarFace == null) continue;
                        //referLst.Append(planarFace.Reference);
                        if (planarFace.FaceNormal.X > 0)
                            refer = planarFace.Reference;
                    }

                }
                break;
            }

            return refer;
        }

        //연결되지 않은 커넥터 또는 커넥터에 연결되어있지만 다음 객체가 커넥터가 1개일 경우
        public Connector GetIsNotConnected(Pipe pipe)
        {
            Connector resCon = null;
            ConnectorSet conSet = pipe.ConnectorManager.Connectors;

            foreach (Connector con in conSet)
            {
                if (con.MEPSystem != null)
                {
                    if (con.IsConnected == false)//연결되지 않은 커넥터
                        resCon = con;
                    else
                    {
                        ConnectorSet NewConSet = con.AllRefs;
                        ConnectorSetIterator csi = NewConSet.ForwardIterator();
                        while (csi.MoveNext())
                        {
                            Connector connected = csi.Current as Connector;
                            if (connected != null)
                            {
                                if (connected.Owner is FamilyInstance)
                                {
                                    FamilyInstance family = connected.Owner as FamilyInstance;

                                    var param = family.Symbol.Family.get_Parameter(BuiltInParameter.FAMILY_CONTENT_PART_TYPE);
                                    PartType part = (PartType)param.AsInteger();
                                    if (part == PartType.Elbow) continue;
                                    else if (part == PartType.Tee) continue;
                                    else if (part == PartType.Cross) continue;
                                    else if (part == PartType.Transition) continue;
                                    //패밀리 커넥터가 1개일 때
                                    resCon = connected;
                                }
                            }
                        }
                    }
                }
            }

            return resCon;
        }


        public Connector GetConnected(Connector BaseCon, int ConNum, XYZ FlowVec, XYZ ReverseVec, ref bool b_Elbow, ref List<ElementId> m_ElemIDLst1, ref List<ElementId> m_ElemIDLst2)
        {
            //기본 커넥터 옆에 객체 구하기.
            Connector NextCon = Util.GetNextElementConnector(BaseCon);

            if (NextCon == null) return null;

            //기본 커넥터 옆에 객체가 엘보일 경우 b_Elbow = true 
            b_Elbow = Util.GetFamilyPartType(NextCon, PartType.Elbow);

            //NextCon 객체의 정방향 또는 역방향에 위치한 커넥터 구하기.
            Connector resCon = GetOtherConnector(NextCon, FlowVec, ReverseVec);

            if (resCon != null || b_Elbow == true)
            {
                if (ConNum == 1)
                    m_ElemIDLst1.Add(NextCon.Owner.Id);
                else
                    m_ElemIDLst2.Add(NextCon.Owner.Id);
            }

            return resCon;
        }

        //패밀리의 타입구분
        public bool GetFamilyPartType(Connector baseCon, PartType partType)
        {
            if (baseCon.Owner is FamilyInstance)
            {
                FamilyInstance family = baseCon.Owner as FamilyInstance;
                Parameter param = family.Symbol.Family.get_Parameter(BuiltInParameter.FAMILY_CONTENT_PART_TYPE);
                if (partType == (PartType)param.AsInteger())
                    return true;
                else
                    return false;
            }

            return false;
        }

        //NextCon 객체의 정방향 또는 역방향에 위치한 커넥터 구하기.
        public Connector GetOtherConnector(Connector baseCon, XYZ FlowVec, XYZ ReverseVec)
        {
            Connector resCon = null;
            ConnectorSet ConSet = null;
            MEPSystem mepSystem = baseCon.MEPSystem;
            FamilyInstance family = null;
            Pipe pipe = null;

            if (mepSystem != null)
            {
                if (baseCon.IsConnected == true)
                {
                    if (baseCon.Owner is FamilyInstance)
                    {
                        family = baseCon.Owner as FamilyInstance;
                        ConSet = family.MEPModel.ConnectorManager.Connectors;
                    }
                    else if (baseCon.Owner is Pipe)
                    {
                        pipe = baseCon.Owner as Pipe;
                        ConSet = pipe.ConnectorManager.Connectors;
                    }


                    foreach (Connector con in ConSet)
                    {
                        //입력 커넥터와 같은 커넥터는 넘긴다,
                        if (con.Origin.IsAlmostEqualTo(baseCon.Origin, Unit.MMToFeet(0.001)))
                            continue;
                        else
                        {
                            XYZ CurVec = (con.Origin - baseCon.Origin).Normalize();
                            //정방향 또는 역방향 커넥터를 찾아 리턴
                            if (CurVec.IsAlmostEqualTo(FlowVec, Unit.MMToFeet(0.01)) || CurVec.IsAlmostEqualTo(ReverseVec, Unit.MMToFeet(0.01)))
                                resCon = con;
                        }

                    }

                }
            }


            //Pyosi(resCon.Origin, 1);
            //MessageBox.Show("2");
            return resCon;
        }

        //커넥터에 연결된 다음 객체의 커넥터 구하기.
        public Connector GetNextElementConnector(Connector baseCon)
        {
            Connector resCon = null;
            MEPSystem mepSystem = baseCon.MEPSystem;

            if (mepSystem != null)
            {
                if (baseCon.IsConnected == true)
                {
                    ConnectorSet ConSet = baseCon.AllRefs;
                    ConnectorSetIterator csi = ConSet.ForwardIterator();
                    while (csi.MoveNext())
                    {
                        Connector connected = csi.Current as Connector;

                        if (connected != null && connected.ConnectorType == ConnectorType.End)
                        {
                            if (baseCon.Origin.IsAlmostEqualTo(connected.Origin, Unit.MMToFeet(0.001)))
                            {
                                if (connected.IsConnected == true)
                                {
                                    ConnectorSet ConnectedSet = null;
                                    FamilyInstance family = null;
                                    Pipe pipe = null;

                                    if (connected.Owner is FamilyInstance)
                                    {
                                        family = connected.Owner as FamilyInstance;
                                        ConnectedSet = family.MEPModel.ConnectorManager.Connectors;
                                    }
                                    else if (connected.Owner is Pipe)
                                    {
                                        pipe = connected.Owner as Pipe;
                                        ConnectedSet = pipe.ConnectorManager.Connectors;
                                    }

                                    foreach (Connector NextCon in ConnectedSet)
                                    {
                                        if (connected.Origin.IsAlmostEqualTo(NextCon.Origin, Unit.MMToFeet(0.001)))
                                        {
                                            resCon = NextCon;
                                        }
                                    }

                                }
                            }
                        }

                    }//while end
                }
            }
            return resCon;
        }

        public bool Pyosi(XYZ pt, int TranMode)
        {
            if (TranMode == 0)
            {
                XYZ pt1 = new XYZ(pt.X - 0.328084, pt.Y + 0.328084, pt.Z);
                XYZ pt2 = new XYZ(pt.X + Unit.CovertToAPI(100, DisplayUnitType.DUT_MILLIMETERS), pt.Y + Unit.CovertToAPI(100, DisplayUnitType.DUT_MILLIMETERS), pt.Z);
                XYZ pt3 = new XYZ(pt.X + 0.328084, pt.Y - 0.328084, pt.Z);
                XYZ pt4 = new XYZ(pt.X - 0.328084, pt.Y - 0.328084, pt.Z);

                Autodesk.Revit.DB.View view = doc.ActiveView;
                Util.NewModelLine(uiapp, view.SketchPlane.GetPlane(), pt1, pt3);
                Util.NewModelLine(uiapp, view.SketchPlane.GetPlane(), pt2, pt4);
            }
            else
            {
                using (Transaction transaction = new Transaction(doc))
                {
                    transaction.Start("Start");

                    XYZ pt1 = new XYZ(pt.X - 0.328084, pt.Y + 0.328084, pt.Z);
                    XYZ pt2 = new XYZ(pt.X + Unit.CovertToAPI(100, DisplayUnitType.DUT_MILLIMETERS), pt.Y + Unit.CovertToAPI(100, DisplayUnitType.DUT_MILLIMETERS), pt.Z);
                    XYZ pt3 = new XYZ(pt.X + 0.328084, pt.Y - 0.328084, pt.Z);
                    XYZ pt4 = new XYZ(pt.X - 0.328084, pt.Y - 0.328084, pt.Z);

                    Autodesk.Revit.DB.View view = doc.ActiveView;
                    Util.NewModelLine(uiapp, view.SketchPlane.GetPlane(), pt1, pt3);
                    Util.NewModelLine(uiapp, view.SketchPlane.GetPlane(), pt2, pt4);
                    transaction.Commit();
                }
            }

            return true;
        }

        public class PipeSelectionFilter : ISelectionFilter
        {
            public bool AllowElement(Element element)
            {
                if (element.Category.Id.IntegerValue == (int)BuiltInCategory.OST_PipeCurves)
                {
                    return true;
                }
                return false;
            }
            public bool AllowReference(Reference refer, XYZ point)
            {
                return false;
            }
        }
        public Options NewOptions()
        {
            Options opt = new Options();
            opt.ComputeReferences = true;
            opt.IncludeNonVisibleObjects = true;
            opt.View = doc.ActiveView;
            if (opt.DetailLevel != ViewDetailLevel.Fine)
                opt.DetailLevel = ViewDetailLevel.Fine;
            return opt;
        }

        //객체의 커넥터 레퍼런스 구하기
        public Reference GetElementPointReference(Element elem, Connector con)
        {
            Reference resRef = null;
            foreach (var geoobj in (elem as Pipe).get_Geometry(NewOptions()))
            {
                Curve cv = geoobj as Curve;
                if (cv == null) continue;
                if (cv.GetEndPoint(0).IsAlmostEqualTo(con.Origin, Unit.MMToFeet(0.01)))
                    resRef = cv.GetEndPointReference(0);
                else if (cv.GetEndPoint(1).IsAlmostEqualTo(con.Origin, Unit.MMToFeet(0.01)))
                    resRef = cv.GetEndPointReference(1);
            }
            return resRef;
        }
    }
}