//----------------------------------------------------------------------------
//  EgalTech 2015-2015
//----------------------------------------------------------------------------
// File : Milling.h           Data : 07.06.15          Versione : 1.6f2
// Contenuto : Dichiarazione della classe Milling.
//
//
//
// Modifiche : 07.06.15 DS Creazione modulo.
//
//
//----------------------------------------------------------------------------

#pragma once

#include "Machining.h"
#include "MillingData.h"
#include "ToolData.h"
#include "/EgtDev/Include/EGkCurve.h"

class ICurveComposite ;

//----------------------------------------------------------------------------
class Milling : public Machining
{
   public :                           // IUserObj
      Milling* Clone( void) const override ;
      const std::string& GetClassName( void) const override ;
      bool Dump( std::string& sOut, bool bMM = true, const char* szNewLine = "\n") const override ;
      bool ToSave( void) const override
              { return true ; }
      bool Save( int nBaseId, STRVECTOR& vString) const override ;
      bool Load( const STRVECTOR& vString, int nBaseGdbId) override ;

   public :                           // Operation
      int  GetType( void) const override
              { return OPER_MILLING ; }
      bool IsEmpty( void) const override
              { return ( m_nMills == 0) ; }

   protected :                        // Operation
      int  GetSolCh( void) const override
              { return m_Params.m_nSolCh ; }
      bool AdjustEndPointForAxesCalc( const CamData* pCamData, Point3d& ptP) const override ;
      bool AdjustArcCenterForAxesCalc( const CamData* pCamData, Point3d& ptCen) const override ;

   public :                           // Machining
      bool Prepare( const std::string& sMillName) override ;
      bool SetParam( int nType, bool bVal) override ;
      bool SetParam( int nType, int nVal) override ;
      bool SetParam( int nType, double dVal) override ;
      bool SetParam( int nType, const std::string& sVal) override ;
      bool SetGeometry( const SELVECTOR& vIds) override ;
      bool Preview( bool bRecalc) override ;
      bool Apply( bool bRecalc, bool bPostApply) override ;
      bool Update( bool bPostApply) override ;
      bool GetParam( int nType, bool& bVal) const override ;
      bool GetParam( int nType, int& nVal) const override ;
      bool GetParam( int nType, double& dVal) const override ;
      bool GetParam( int nType, std::string& sVal) const override ;
      bool UpdateToolData( bool* pbChanged = nullptr) override ;
      const ToolData& GetToolData( void) const override ;
      bool GetGeometry( SELVECTOR& vIds) const override ;

   public :
      Milling( void) ;

   private :
      bool VerifyGeometry( SelData Id, int& nSubs, int& nType) ;
      bool GetCurves( SelData Id, ICURVEPLIST& lstPC) ;
      bool Chain( int nGrpDestId) ;
      bool ProcessPath( int nPathId, int nPvId, int nClId) ;
      bool AdjustPathDrawForSaw( int nClPathId) ;
      bool CalcPathElevation( const ICurveComposite* pCompo, const Vector3d& vtTool, double dDepth, double dRad, double& dElev) ;
      bool VerifyPathFromBottom( const ICurveComposite* pCompo, const Vector3d& vtTool) ;
      bool GenerateMillingPv( int nPathId, const ICurveComposite* pCompo) ;
      bool AddStandardMilling( const ICurveComposite* pCompo, const Vector3d& vtTool, const Vector3d& vtExtr,
                               double dDepth, double dElev, bool bSplitArcs) ;
      bool AddZigZagMilling( const ICurveComposite* pCompo, const Vector3d& vtTool, const Vector3d& vtExtr,
                             double dDepth, double dElev, double dOkStep, bool bSplitArcs) ;
      bool AddOneWayMilling( const ICurveComposite* pCompo, const Vector3d& vtTool, const Vector3d& vtExtr,
                             double dDepth, double dElev, double dOkStep, bool bSplitArcs) ;
      bool AddSpiralMilling( const ICurveComposite* pCompo, const Vector3d& vtTool, const Vector3d& vtExtr,
                             double dDepth, double dElev, double dOkStep, bool bSplitArcs) ;
      bool AddSawZigZagMilling( const ICurveComposite* pCompo, const Vector3d& vtTool, const Vector3d& vtExtr,
                                double dDepth, double dElev, double dOkStep, bool bSplitArcs) ;
      bool AddApproach( const Point3d& ptP, const Vector3d& vtTool, double dSafeZ, double dSafeAggrBottZ,
                        double dElev, double dAppr, bool bOutStart, bool bAboveStart) ;
      bool AddRetract( const Point3d& ptP, const Vector3d& vtTool, double dSafeZ, double dSafeAggrBottZ,
                       double dElev, double dAppr, bool bAboveEnd) ;
      bool CalcLeadInStart( const Point3d& ptStart, const Vector3d& vtStart, const Vector3d& vtN,
                            double dStElev, bool bInvert, const ICurveComposite* pCompo, Point3d& ptP1) ;
      bool AddLeadIn( const Point3d& ptP1, const Point3d& ptStart, const Vector3d& vtStart,
                      const Vector3d& vtN, bool bInvert, const ICurveComposite* pCompo, bool bSplitArcs) ;
      bool AddLeadOut( const Point3d& ptEnd, const Vector3d& vtEnd, const Vector3d& vtN, double dEndElev,
                       bool bInvert, const ICurveComposite* pCompo, bool bSplitArcs, Point3d& ptP1) ;
      double GetRadiusForStartEndElevation( void) ;
      bool GetPointOutOfRaw( const Point3d& ptP, const Vector3d& vtTool) ;
      bool GetPointAboveRaw( const Point3d& ptP) ;
      bool CalcAndSetCorrAuxDir( const ICurveComposite* pCompo, double dU) ;
      Vector3d CalcCorrDir( const ICurveComposite* pCompo, double dU) ;
      bool CalcOffset( ICurveComposite* pCompo, double dSignOffs) ;

   private :
      double GetSpeed() const
         { return ( abs( m_Params.m_dSpeed) < EPS_MACH_ANG_PAR ? m_TParams.m_dSpeed : m_Params.m_dSpeed) ; }
      double GetFeed() const
         { return ( abs( m_Params.m_dFeed) < EPS_MACH_LEN_PAR ? m_TParams.m_dFeed : m_Params.m_dFeed) ; }
      double GetStartFeed() const
         { return ( abs( m_Params.m_dStartFeed) < EPS_MACH_LEN_PAR ? m_TParams.m_dStartFeed : m_Params.m_dStartFeed) ; }
      double GetEndFeed() const
         { return ( abs( m_Params.m_dEndFeed) < EPS_MACH_LEN_PAR ? m_TParams.m_dEndFeed : m_Params.m_dEndFeed) ; }
      double GetTipFeed() const
         { return ( abs( m_Params.m_dTipFeed) < EPS_MACH_LEN_PAR ? m_TParams.m_dTipFeed : m_Params.m_dTipFeed) ; }
      double GetOffsL() const
         { return ( abs( m_Params.m_dOffsL - UNKNOWN_PAR) < EPS_MACH_LEN_PAR ? m_TParams.m_dOffsL : m_Params.m_dOffsL) ; }
      double GetOffsR() const
         { return ( abs( m_Params.m_dOffsR - UNKNOWN_PAR) < EPS_MACH_LEN_PAR ? m_TParams.m_dOffsR : m_Params.m_dOffsR) ; }
      int GetLeadInType( void) const ;
      int GetLeadOutType( void) const ;
      bool IsLeadInHelixOrZigzag()
         { int nType = GetLeadInType() ;
           return ( nType == MILL_LI_ZIGZAG  ||  nType == MILL_LI_HELIX) ; }
      friend class LeadIOStatus ;

   private :
      SELVECTOR     m_vId ;             // identificativi entità geometriche da lavorare
      MillingData   m_Params ;          // parametri lavorazione
      ToolData      m_TParams ;         // parametri utensile
      int           m_nMills ;          // numero di percorsi di lavoro generati
      bool          m_bStepOn ;         // flag per indicare che effettivamente si lavora a step
      int           m_nHeadSolCh ;      // criterio scelta soluzione impostato nella testa
      bool          m_bAggrBottom ;     // flag utilizzo di aggregato da sotto
      Vector3d      m_vtAggrBottom ;    // vettore direzione ausiliaria aggregato da sotto
      AggrBottom    m_AggrBottom ;      // dati eventuale aggregato da sotto
} ;