Dario Sassi
b304c329ef
- aggiunta estensione di curve agli estremi di data lunghezza - a selezione oggetto aggiunto flag per farlo solo se già visibile - possibilità di ciclare gli oggetti selezionati a ritroso - a tutti gli oggetti Geo aggiunto il costruttore di copia.
185 lines
10 KiB
C++
185 lines
10 KiB
C++
//----------------------------------------------------------------------------
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// EgalTech 2013-2013
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//----------------------------------------------------------------------------
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// File : CurveComposite.h Data : 23.11.13 Versione : 1.3a1
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// Contenuto : Dichiarazione della classe Curva composita.
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//
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//
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//
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// Modifiche : 16.04.13 DS Creazione modulo.
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//
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//
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//----------------------------------------------------------------------------
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#pragma once
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#include "ObjGraphicsMgr.h"
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#include "CurveAux.h"
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#include "DllMain.h"
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#include "GeoObjRW.h"
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#include "/EgtDev/Include/EGkCurveComposite.h"
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#include "/EgtDev/Include/EgtLogger.h"
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#include <deque>
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//----------------------------------------------------------------------------
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class CurveComposite : public ICurveComposite, public IGeoObjRW
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{
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public : // IGeoObj
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virtual ~CurveComposite( void) ;
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virtual CurveComposite* Clone( void) const ;
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virtual GeoObjType GetType( void) const ;
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virtual bool IsValid( void) const
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{ return ( m_nStatus == OK) ; }
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virtual const std::string& GetTitle( void) const ;
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virtual bool Dump( std::string& sOut, const char* szNewLine = "\n") const ;
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virtual bool GetLocalBBox( BBox3d& b3Loc, int nFlag = BBF_STANDARD) const ;
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virtual bool GetBBox( const Frame3d& frRef, BBox3d& b3Ref, int nFlag = BBF_STANDARD) const ;
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virtual bool Translate( const Vector3d& vtMove) ;
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virtual bool Rotate( const Point3d& ptAx, const Vector3d& vtAx, double dAngDeg)
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{ double dAngRad = dAngDeg * DEGTORAD ;
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return Rotate( ptAx, vtAx, cos( dAngRad), sin( dAngRad)) ; }
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virtual bool Rotate( const Point3d& ptAx, const Vector3d& vtAx, double dCosAng, double dSinAng) ;
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virtual bool Scale( const Frame3d& frRef, double dCoeffX, double dCoeffY, double dCoeffZ) ;
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virtual bool Mirror( const Point3d& ptOn, const Vector3d& vtNorm) ;
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virtual bool Shear( const Point3d& ptOn, const Vector3d& vtNorm, const Vector3d& vtDir, double dCoeff) ;
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virtual bool ToGlob( const Frame3d& frRef) ;
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virtual bool ToLoc( const Frame3d& frRef) ;
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virtual bool LocToLoc( const Frame3d& frOri, const Frame3d& frDest) ;
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virtual void SetObjGraphics( IObjGraphics* pOGr)
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{ m_OGrMgr.SetObjGraphics( pOGr) ; }
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virtual IObjGraphics* GetObjGraphics( void)
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{ return m_OGrMgr.GetObjGraphics() ; }
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virtual const IObjGraphics* GetObjGraphics( void) const
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{ return m_OGrMgr.GetObjGraphics() ; }
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public : // ICurve
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virtual bool IsSimple( void) const { return false ; }
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virtual bool IsClosed( void) const
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{ return ( m_nStatus == OK && m_bClosed) ; }
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virtual bool IsFlat( Plane3d& plPlane, double dToler = EPS_SMALL) const ;
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virtual bool GetStartPoint( Point3d& ptStart) const ;
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virtual bool GetEndPoint( Point3d& ptEnd) const ;
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virtual bool GetMidPoint( Point3d& ptMid) const ;
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virtual bool GetCenterPoint( Point3d& ptCen) const
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{ return GetMidPoint( ptCen) ; }
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virtual bool GetStartDir( Vector3d& vtDir) const
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{ return ::GetTang( *this, 0, FROM_PLUS, vtDir) ; }
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virtual bool GetEndDir( Vector3d& vtDir) const
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{ return ::GetTang( *this, m_nCounter, FROM_MINUS, vtDir) ; }
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virtual bool GetMidDir( Vector3d& vtDir) const ;
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virtual bool GetExtrusion( Vector3d& vtExtr) const
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{ vtExtr = m_VtExtr ; return ( m_nStatus == OK) ; }
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virtual bool GetThickness( double& dThick) const
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{ dThick = m_dThick ; return ( m_nStatus == OK) ; }
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virtual bool GetDomain( double& dStart, double& dEnd) const ;
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virtual bool IsValidParam( double dPar, Side nSide) const
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{ return ::IsValidParam( *this, dPar, nSide) ; }
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virtual bool IsStartParam( double dPar) const
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{ return ::IsStartParam( *this, dPar) ; }
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virtual bool IsEndParam( double dPar) const
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{ return ::IsEndParam( *this, dPar) ; }
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virtual bool GetLength( double& dLen) const ;
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virtual bool GetLengthAtParam( double dU, double& dLen) const ;
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virtual bool GetParamAtLength( double dLen, double& dU) const ;
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virtual bool GetPointD1D2( double dU, Side nS, Point3d& ptPos,
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Vector3d* pvtDer1 = nullptr, Vector3d* pvtDer2 = nullptr) const ;
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virtual bool GetPointTang( double dU, Side nS, Point3d& ptPos, Vector3d& vtTang) const
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{ return ::GetPointTang( *this, dU, nS, ptPos, vtTang) ; }
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virtual bool GetPointDiffGeom( double dU, Side nS, CrvPointDiffGeom& oDiffG) const
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{ oDiffG.nFlag = ( IsParamAtJoint( dU) ? CrvPointDiffGeom::TO_VERIFY : CrvPointDiffGeom::STD) ;
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return ::GetPointDiffGeom( *this, dU, nS, oDiffG) ; }
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virtual bool IsPointOn( const Point3d& ptP, double dTol = EPS_SMALL) const ;
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virtual bool ApproxWithLines( double dLinTol, double dAngTolDeg, PolyLine& PL) const ;
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virtual bool ApproxWithArcs( double dLinTol, double dAngTolDeg, PolyArc& PA) const ;
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virtual ICurve* CopyParamRange( double dUStart, double dUEnd) const ;
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virtual bool Invert( void) ;
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virtual bool Offset( double dDist, int nSide, int nType = OFF_FILLET)
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{ return false ; }
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virtual bool ModifyStart( const Point3d& ptNewStart) ;
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virtual bool ModifyEnd( const Point3d& ptNewEnd) ;
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virtual bool SetExtrusion( const Vector3d& vtExtr)
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{ m_VtExtr = vtExtr ; m_VtExtr.Normalize() ; m_OGrMgr.Reset() ; return true ; }
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virtual bool SetThickness( double dThick)
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{ m_dThick = dThick ; m_OGrMgr.Reset() ; return true ; }
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virtual bool TrimStartAtParam( double dUTrim) ;
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virtual bool TrimEndAtParam( double dUTrim) ;
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virtual bool TrimStartEndAtParam( double dUStartTrim, double dUEndTrim) ;
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virtual bool TrimStartAtLen( double dLenTrim) ;
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virtual bool TrimEndAtLen( double dLenTrim) ;
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virtual bool ExtendStartByLen( double dLenExt) ;
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virtual bool ExtendEndByLen( double dLenExt) ;
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public : // ICurveComposite
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virtual bool CopyFrom( const IGeoObj* pGObjSrc) ;
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virtual bool Clear( void) ;
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virtual bool AddCurve( const ICurve& cCrv, bool bEndOrStart = true, double dLinTol = EPS_SMALL) ;
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virtual bool AddCurve( ICurve* pCrv, bool bEndOrStart = true, double dLinTol = EPS_SMALL) ;
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virtual bool FromSplit( const ICurve& cCrv, int nParts) ;
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virtual bool FromPolyLine( const PolyLine& PL) ;
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virtual bool FromPolyArc( const PolyArc& PA) ;
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virtual bool PolygonCenterCorner( int nSides, const Point3d& ptCen, const Point3d& ptCorner) ;
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virtual bool PolygonCenterMidSide( int nSides, const Point3d& ptCen, const Point3d& ptMidSide) ;
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virtual bool PolygonSide( int nSides, const Point3d& ptStart, const Point3d& ptEnd) ;
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virtual int GetCurveNumber( void) const
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{ return m_nCounter ; }
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virtual const ICurve* GetFirstCurve( void) const ;
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virtual const ICurve* GetNextCurve( void) const ;
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virtual const ICurve* GetLastCurve( void) const ;
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virtual const ICurve* GetPrevCurve( void) const ;
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virtual bool IsParamAtJoint( double dU) const ;
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virtual ICurve* RemoveFirstOrLastCurve( bool bLast = true) ;
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virtual bool ChangeStartPoint( double dU) ;
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virtual bool ArcsToBezierCurves( void) ;
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public : // IGeoObjRW
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virtual int GetNgeId( void) const ;
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virtual bool Save( NgeWriter& ngeOut) const ;
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virtual bool Load( NgeReader& ngeIn) ;
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public :
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CurveComposite( void) ;
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CurveComposite( const CurveComposite& ccSrc)
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{ if ( ! CopyFrom( ccSrc))
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LOG_ERROR( GetEGkLogger(), "CurveComposite : copy constructor error") }
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CurveComposite& operator =( const CurveComposite& ccSrc)
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{ if ( ! CopyFrom( ccSrc))
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LOG_ERROR( GetEGkLogger(), "CurveComposite : copy error")
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return *this ; }
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private :
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bool CopyFrom( const CurveComposite& ccSrc) ;
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bool Validate( void) ;
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bool AddSimpleCurve( ICurve* pSmplCrv, bool bEndOrStart = true, double dLinTol = EPS_SMALL) ;
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bool GetIndSCurveAndLocPar( double dU, Side nS, int& nSCrv, double& dLocU) const ;
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private :
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enum Status { ERR = 0, OK = 1, TO_VERIFY = 2} ;
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private :
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typedef std::deque<ICurve*> PCRVSMPL_DEQUE ;
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private :
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ObjGraphicsMgr m_OGrMgr ; // gestore grafica dell'oggetto
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Status m_nStatus ; // stato
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int m_nCounter ; // contatore del numero di curve
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PCRVSMPL_DEQUE m_CrvSmplS ; // deque di curve semplici
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Point3d m_PtStart ; // punto iniziale
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Point3d m_PtEnd ; // punto finale
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bool m_bClosed ; // flag per indicare che la curva è chiusa
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Vector3d m_VtExtr ; // vettore estrusione (normalmente coincide con m_VtN)
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double m_dThick ; // spessore
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mutable PCRVSMPL_DEQUE::const_iterator m_Iter ; // iteratore
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} ;
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//-----------------------------------------------------------------------------
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inline CurveComposite* CreateBasicCurveComposite( void)
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{ return (static_cast<CurveComposite*>( CreateGeoObj( CRV_COMPO))) ; }
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inline CurveComposite* CloneBasicCurveComposite( const IGeoObj* pGObj)
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{ if ( pGObj == nullptr || pGObj->GetType() != CRV_COMPO)
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return nullptr ;
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return (static_cast<CurveComposite*>(pGObj->Clone())) ; }
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inline const CurveComposite* GetBasicCurveComposite( const IGeoObj* pGObj)
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{ return (dynamic_cast<const CurveComposite*>(pGObj)) ; }
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inline CurveComposite* GetBasicCurveComposite( IGeoObj* pGObj)
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{ return (dynamic_cast<CurveComposite*>(pGObj)) ; }
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