//----------------------------------------------------------------------------
//  EgalTech 2013-2013
//----------------------------------------------------------------------------
// File : CurveLine.h         Data : 16.04.13          Versione : 1.1d1
// Contenuto : Dichiarazione della classe Segmento di Linea.
//
//
//
// Modifiche : 16.04.13 DS Creazione modulo.
//
//
//----------------------------------------------------------------------------

#pragma once

#include "ObjGraphicsMgr.h"
#include "CurveAux.h"
#include "DllMain.h"
#include "GeoObjRW.h"
#include "/EgtDev/Include/EGkCurveLine.h"

class Voronoi ;

//----------------------------------------------------------------------------
class CurveLine : public ICurveLine, public IGeoObjRW
{
   public :                      // IGeoObj
      ~CurveLine( void) override ;
      CurveLine* Clone( void) const override ;
      GeoObjType GetType( void) const override ;
      bool IsValid( void) const override
               { return ( m_nStatus == OK) ; }
      const std::string& GetTitle( void) const override ;
      bool Dump( std::string& sOut, bool bMM = true, const char* szNewLine = "\n") const override ;
      bool GetLocalBBox( BBox3d& b3Loc, int nFlag = BBF_STANDARD) const override ;
      bool GetBBox( const Frame3d& frRef, BBox3d& b3Ref, int nFlag = BBF_STANDARD) const override ;
      bool Translate( const Vector3d& vtMove) override ;
      bool Rotate( const Point3d& ptAx, const Vector3d& vtAx, double dAngDeg) override
               { double dAngRad = dAngDeg * DEGTORAD ;
               return Rotate( ptAx, vtAx, cos( dAngRad), sin( dAngRad)) ; }
      bool Rotate( const Point3d& ptAx, const Vector3d& vtAx, double dCosAng, double dSinAng) override ;
      bool Scale( const Frame3d& frRef, double dCoeffX, double dCoeffY, double dCoeffZ) override ;
      bool Mirror( const Point3d& ptOn, const Vector3d& vtNorm) override ;
      bool Shear( const Point3d& ptOn, const Vector3d& vtNorm, const Vector3d& vtDir, double dCoeff) override ;
      bool ToGlob( const Frame3d& frRef) override ;
      bool ToLoc( const Frame3d& frRef) override ;
      bool LocToLoc( const Frame3d& frOri, const Frame3d& frDest) override ;
      void SetObjGraphics( IObjGraphics* pOGr) override
               { m_OGrMgr.SetObjGraphics( pOGr) ; }
      IObjGraphics* GetObjGraphics( void) override
               { return m_OGrMgr.GetObjGraphics() ; }
      const IObjGraphics* GetObjGraphics( void) const override
               { return m_OGrMgr.GetObjGraphics() ; }
      void SetTempProp( int nProp, int nPropInd = 0) override
              { if ( nPropInd >= 0  &&  nPropInd < 2)
                   m_nTempProp[nPropInd] = nProp ; } 
      int  GetTempProp( int nPropInd = 0) const override
              { return (( nPropInd >= 0  &&  nPropInd < 2) ? m_nTempProp[nPropInd] : 0) ; }
      void SetTempParam( double dParam, int nParamInd = 0) override
              { if ( nParamInd >= 0  &&  nParamInd < 2)
                  m_dTempParam[nParamInd] = dParam ; } 
      double GetTempParam( int nParamInd = 0) const override
                { return (( nParamInd >= 0  &&  nParamInd < 2) ? m_dTempParam[nParamInd] : 0.0) ; }

   public :                      // ICurve
      bool IsSimple( void) const override
              { return true ; }
      bool IsClosed( void) const override
              { return ::IsClosed( *this) ; }
      bool IsFlat( Plane3d& plPlane, bool bUseExtrusion = true, double dToler = EPS_SMALL) const override ;
      bool GetStartPoint( Point3d& ptStart) const override ;
      bool GetEndPoint( Point3d& ptEnd) const override ;
      bool GetMidPoint( Point3d& ptMid) const override ;
      bool GetCenterPoint( Point3d& ptCen) const override
              { return GetMidPoint( ptCen) ; }
      bool GetCentroid( Point3d& ptCen) const override
              { return GetMidPoint( ptCen) ; }
      bool GetStartDir( Vector3d& vtDir) const override ;
      bool GetEndDir( Vector3d& vtDir) const override
              { return GetStartDir( vtDir) ; }
      bool GetMidDir( Vector3d& vtDir) const override
              { return GetStartDir( vtDir) ; }
      bool GetExtrusion( Vector3d& vtExtr) const override
              { vtExtr = m_VtExtr ; return ( m_nStatus == OK) ; }
      bool GetThickness( double& dThick) const override
              { dThick = m_dThick ; return ( m_nStatus == OK) ; }
      bool GetDomain( double& dStart, double& dEnd) const override
              { dStart = 0 ; dEnd = 1 ; return ( m_nStatus == OK) ; }
      bool IsValidParam( double dPar, Side nSide) const override
              { return ::IsValidParam( *this, dPar, nSide) ; }
      bool IsStartParam( double dPar) const override
              { return ::IsStartParam( *this, dPar) ; }
      bool IsEndParam( double dPar) const override
              { return ::IsEndParam( *this, dPar) ; }
      bool GetLength( double& dLen) const override ;
      bool GetLengthAtParam( double dU, double& dLen) const override ;
      bool GetParamAtLength( double dLen, double& dU) const override ;
      bool GetPointD1D2( double dU, Side nS, Point3d& ptPos,
                         Vector3d* pvtDer1 = nullptr, Vector3d* pvtDer2 = nullptr) const override ;
      bool GetPointTang( double dU, Side nS, Point3d& ptPos, Vector3d& vtTang) const override
              { return ::GetPointTang( *this, dU, nS, ptPos, vtTang) ; }
      bool GetPointDiffGeom( double dU, Side nS, CrvPointDiffGeom& oDiffG) const override
              { oDiffG.nFlag = CrvPointDiffGeom::STD ;
                return ::GetPointDiffGeom( *this, dU, nS, oDiffG) ; }
      bool IsPointOn( const Point3d& ptP, double dTol = EPS_SMALL) const override ;
      bool GetParamAtPoint( const Point3d& ptP, double& dPar, double dTol = EPS_SMALL) const override ;
      bool GetLengthAtPoint( const Point3d& ptP, double& dLen, double dTol = EPS_SMALL) const override ;
      bool GetNearestExtremityToPoint( const Point3d& ptP, bool& bStart) const override
              { return ::GetNearestExtremityToPoint( ptP, *this, bStart) ; }
      bool GetAreaXY( double& dArea) const override 
              { return false ; }
      bool GetArea( Plane3d& plPlane, double& dArea) const override
              { return false ; }
      bool ApproxWithLines( double dLinTol, double dAngTolDeg, int nType, PolyLine& PL) const override ;
      bool ApproxWithArcs( double dLinTol, double dAngTolDeg, PolyArc& PA) const override ;
      bool ApproxWithArcsEx( double dLinTol, double dAngTolDeg, double dLinFea, PolyArc& PA) const override
              { return ApproxWithArcs( dLinTol, dAngTolDeg, PA) ; }
      ICurve* CopyParamRange( double dUStart, double dUEnd) const override ;
      bool Invert( void) override ;
      bool SimpleOffset( double dDist, int nType = OFF_FILLET, double dMaxAngExt = ANG_RIGHT) override ;
      bool ModifyStart( const Point3d& ptNewStart) override ;
      bool ModifyEnd( const Point3d& ptNewEnd) override ;
      bool SetExtrusion( const Vector3d& vtExtr) override
               { m_VtExtr = vtExtr ; m_VtExtr.Normalize() ; m_OGrMgr.Reset() ; return true ; }
      bool SetThickness( double dThick) override
               { m_dThick = dThick ; m_OGrMgr.Reset() ; return true ; }
      bool TrimStartAtParam( double dUTrim) override ;
      bool TrimEndAtParam( double dUTrim) override ;
      bool TrimStartEndAtParam( double dUStartTrim, double dUEndTrim) override ;
      bool TrimStartAtLen( double dLenTrim) override ;
      bool TrimEndAtLen( double dLenTrim) override ;
      bool ExtendStartByLen( double dLenExt) override ;
      bool ExtendEndByLen( double dLenExt) override ;

   public :                      // ICurveLine
      bool CopyFrom( const IGeoObj* pGObjSrc) override ;
      bool Set( const Point3d& ptStart, const Point3d& ptEnd) override ;
      bool SetPVL( const Point3d& ptStart, const Vector3d& vtDir, double dLen) override ;
      bool SetPDL( const Point3d& ptStart, double dDirAngDeg, double dLen) override ;
      const Point3d& GetStart( void) const override
               { return m_PtStart ; } 
      const Point3d& GetEnd( void) const override
               { return m_PtEnd ; } 
      bool CalcPointParamPosiz( const Point3d& ptP, bool bOnXY, double& dU, int& nPos) const override ;

   public :                      // IGeoObjRW
      int GetNgeId( void) const override ;
      bool Save( NgeWriter& ngeOut) const override ;
      bool PreSave( GdbGeo& Wrapper) const override { return true ; }
      bool PostSave( GdbGeo& Wrapper) const override { return true ; }
      bool Load( NgeReader& ngeIn) override ;
      bool PostLoad( GdbGeo& Wrapper) override { return true ; }

   public :
      CurveLine( void) ;
      CurveLine( const CurveLine& clSrc) : m_pVoronoiObj( nullptr)
                  { if ( ! CopyFrom( clSrc))
                       LOG_ERROR( GetEGkLogger(), "CurveLine : copy constructor error") }
      CurveLine& operator =( const CurveLine& clSrc)
                  { if ( ! CopyFrom( clSrc))
                       LOG_ERROR( GetEGkLogger(), "CurveLine : copy error")
                    return *this ; }
      Voronoi* GetVoronoiObject( void) const ;
      void ResetVoronoiObject( void) const ;

   private :
      bool CopyFrom( const CurveLine& clSrc) ;
      bool Validate( void) ;      
      bool CalcVoronoiObject( void) const ;      

   private :
      enum Status { ERR = 0, OK = 1, TO_VERIFY = 2} ;

   private :
      ObjGraphicsMgr m_OGrMgr ;         // gestore grafica dell'oggetto
      Status   m_nStatus ;              // stato
      Point3d  m_PtStart ;              // punto iniziale
      Point3d  m_PtEnd ;                // punto finale
      Vector3d m_VtExtr ;               // vettore estrusione
      double   m_dThick ;               // spessore
      int      m_nTempProp[2] ;         // vettore proprietà temporanee
      double   m_dTempParam[2] ;        // vettore parametri temporanei
      mutable Voronoi* m_pVoronoiObj ;  // Voronoi
} ;

//-----------------------------------------------------------------------------
inline CurveLine* CreateBasicCurveLine( void)
               { return ( static_cast<CurveLine*>( CreateGeoObj( CRV_LINE))) ; }
inline CurveLine* CloneBasicCurveLine( const IGeoObj* pGObj)
               { if ( pGObj == nullptr  ||  pGObj->GetType() != CRV_LINE)
                    return nullptr ;
                 return ( static_cast<CurveLine*>( pGObj->Clone())) ; }
inline const CurveLine* GetBasicCurveLine( const IGeoObj* pGObj)
               { if ( pGObj == nullptr  ||  pGObj->GetType() != CRV_LINE)
                    return nullptr ;
                 return ( static_cast<const CurveLine*>( pGObj)) ; }
inline CurveLine* GetBasicCurveLine( IGeoObj* pGObj)
               { if ( pGObj == nullptr  ||  pGObj->GetType() != CRV_LINE)
                    return nullptr ;
                 return ( static_cast<CurveLine*>( pGObj)) ; }