Geant4 Cross Reference

Cross-Referencing   Geant4
Geant4/geometry/solids/specific/include/G4VTwistSurface.hh

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Differences between /geometry/solids/specific/include/G4VTwistSurface.hh (Version 11.3.0) and /geometry/solids/specific/include/G4VTwistSurface.hh (Version 10.0.p4)


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 25 //                                                 25 //
                                                   >>  26 //
                                                   >>  27 // $Id: G4VTwistSurface.hh 66356 2012-12-18 09:02:32Z gcosmo $
                                                   >>  28 //
                                                   >>  29 // 
                                                   >>  30 // --------------------------------------------------------------------
                                                   >>  31 // GEANT 4 class header file
                                                   >>  32 //
                                                   >>  33 //
 26 // G4VTwistSurface                                 34 // G4VTwistSurface
 27 //                                                 35 //
 28 // Class description:                              36 // Class description:
 29 //                                                 37 //
 30 // Abstract base class for boundary surface of <<  38 //  Abstract base class for boundary surface of G4VSolid.
 31                                                    39 
 32 // 01-Aug-2002 - Kotoyo Hoshina (hoshina@hepbu <<  40 // Author: 
 33 // 13-Nov-2003 - O.Link (Oliver.Link@cern.ch), <<  41 //   01-Aug-2002 - Kotoyo Hoshina (hoshina@hepburn.s.chiba-u.ac.jp)
 34 //               from original version in Jupi <<  42 //
                                                   >>  43 // History:
                                                   >>  44 //   13-Nov-2003 - O.Link (Oliver.Link@cern.ch), Integration in Geant4
                                                   >>  45 //                 from original version in Jupiter-2.5.02 application.
 35 // -------------------------------------------     46 // --------------------------------------------------------------------
 36 #ifndef G4VTWISTSURFACE_HH                     <<  47 #ifndef __G4VTWISTSURFACE__
 37 #define G4VTWISTSURFACE_HH                     <<  48 #define __G4VTWISTSURFACE__
 38                                                    49 
 39 #include <CLHEP/Units/SystemOfUnits.h>             50 #include <CLHEP/Units/SystemOfUnits.h>
 40                                                    51 
 41 #include "G4VSolid.hh"                             52 #include "G4VSolid.hh"
 42 #include "geomdefs.hh"                             53 #include "geomdefs.hh"
 43                                                    54 
 44 #include "G4RotationMatrix.hh"                     55 #include "G4RotationMatrix.hh"
 45                                                    56 
 46 #define G4VSURFACENXX 10                           57 #define G4VSURFACENXX 10
 47                                                    58 
 48 class G4VTwistSurface                              59 class G4VTwistSurface
 49 {                                                  60 {
 50  public:                                       <<  61  public:  // without description
                                                   >>  62 
                                                   >>  63    enum EValidate      {kDontValidate = 0, kValidateWithTol = 1, 
                                                   >>  64                         kValidateWithoutTol = 2, kUninitialized = 3};
 51                                                    65 
 52    enum EValidate { kDontValidate = 0, kValida <<  66  public:  // with description
 53                     kValidateWithoutTol = 2, k << 
 54                                                    67 
 55    G4VTwistSurface (const G4String& name);     <<  68    G4VTwistSurface (const G4String &name);
 56    G4VTwistSurface (const G4String& name,      <<  69    G4VTwistSurface (const G4String &name,
 57                     const G4RotationMatrix& ro <<  70                const G4RotationMatrix &rot,
 58                     const G4ThreeVector&    tl <<  71                const G4ThreeVector    &tlate,
 59                           G4int             ha <<  72                      G4int             handedness,
 60                     const EAxis             ax <<  73                const EAxis             axis1,
 61                     const EAxis             ax <<  74                const EAxis             axis2,
 62                           G4double          ax <<  75                      G4double          axis0min = -kInfinity,
 63                           G4double          ax <<  76                      G4double          axis1min = -kInfinity,
 64                           G4double          ax <<  77                      G4double          axis0max = kInfinity,
 65                           G4double          ax <<  78                      G4double          axis1max = kInfinity);
 66                                                    79 
 67    virtual ~G4VTwistSurface() = default;       <<  80    virtual ~G4VTwistSurface();
 68                                                    81 
 69    virtual G4int     AmIOnLeftSide(const G4Thr <<  82    virtual G4int     AmIOnLeftSide(const G4ThreeVector &me, 
 70                                    const G4Thr <<  83                                    const G4ThreeVector &vec, 
 71                                          G4boo     84                                          G4bool withTol = true);
 72                                                    85 
 73    virtual G4double  DistanceToBoundary(           86    virtual G4double  DistanceToBoundary(      G4int areacode,
 74                                                <<  87                                               G4ThreeVector &xx,
 75                                         const  <<  88                                         const G4ThreeVector &p) ;
                                                   >>  89 
 76                                                    90 
 77    virtual G4double  DistanceToIn(const G4Thre <<  91    virtual G4double  DistanceToIn(const G4ThreeVector &gp,
 78                                   const G4Thre <<  92                                   const G4ThreeVector &gv,
 79                                         G4Thre <<  93                                         G4ThreeVector &gxxbest);
 80    virtual G4double  DistanceToOut(const G4Thr <<  94    virtual G4double  DistanceToOut(const G4ThreeVector &gp,
 81                                    const G4Thr <<  95                                    const G4ThreeVector &gv,
 82                                          G4Thr <<  96                                          G4ThreeVector &gxxbest);
 83    virtual G4double  DistanceTo(const G4ThreeV <<  97    virtual G4double  DistanceTo(const G4ThreeVector &gp,
 84                                       G4ThreeV <<  98                                       G4ThreeVector &gxx);
 85                                                    99       
 86    virtual G4int     DistanceToSurface(const G << 100    virtual G4int     DistanceToSurface(const G4ThreeVector &gp,
 87                                        const G << 101                                        const G4ThreeVector &gv,
 88                                              G    102                                              G4ThreeVector gxx[],
 89                                              G    103                                              G4double      distance[],
 90                                              G    104                                              G4int         areacode[],
 91                                              G    105                                              G4bool        isvalid[],
 92                                        EValida    106                                        EValidate validate=kValidateWithTol) = 0;
 93                                                   107 
 94    virtual G4int     DistanceToSurface(const G << 108    virtual G4int     DistanceToSurface(const G4ThreeVector &gp,
 95                                              G    109                                              G4ThreeVector gxx[],
 96                                              G    110                                              G4double      distance[],
 97                                              G    111                                              G4int         areacode[]) = 0;
 98                                                   112                                              
 99    void              DebugPrint() const;          113    void              DebugPrint() const;
100                                                   114 
101    virtual G4ThreeVector GetNormal(const G4Thr << 115    // get methods
                                                   >> 116 
                                                   >> 117    virtual G4ThreeVector GetNormal(const G4ThreeVector &xx,G4bool isGlobal) = 0;
102                                                   118    
103    virtual G4String      GetName() const { ret    119    virtual G4String      GetName() const { return fName; }
104    virtual void          GetBoundaryParameters << 120    virtual void          GetBoundaryParameters(const G4int   &areacode,
105                                                << 121                                                G4ThreeVector &d,
106                                                << 122                                                G4ThreeVector &x0,
107                                                << 123                                                G4int &boundarytype) const;
108    virtual G4ThreeVector GetBoundaryAtPZ(G4int    124    virtual G4ThreeVector GetBoundaryAtPZ(G4int areacode,
109                                          const << 125                                          const G4ThreeVector &p) const;
110                                                   126 
111    inline  G4double DistanceToPlaneWithV(const << 127    inline  G4double      DistanceToPlaneWithV(const G4ThreeVector &p,
112                                          const << 128                                               const G4ThreeVector &v,
113                                          const << 129                                               const G4ThreeVector &x0,
114                                          const << 130                                               const G4ThreeVector &n0,
115                                                << 131                                                     G4ThreeVector &xx);
116                                                << 132 
117    inline  G4double DistanceToPlane(const G4Th << 133    inline  G4double      DistanceToPlane(const G4ThreeVector &p,
118                                     const G4Th << 134                                          const G4ThreeVector &x0,
119                                     const G4Th << 135                                          const G4ThreeVector &n0,
120                                           G4Th << 136                                                G4ThreeVector &xx);
121                                                   137    
122    inline  G4double DistanceToPlane(const G4Th << 138    inline  G4double      DistanceToPlane(const G4ThreeVector &p,
123                                     const G4Th << 139                                          const G4ThreeVector &x0,
124                                     const G4Th << 140                                          const G4ThreeVector &t1,
125                                     const G4Th << 141                                          const G4ThreeVector &t2,
126                                           G4Th << 142                                                G4ThreeVector &xx,
127                                           G4Th << 143                                                G4ThreeVector &n);
128                                                << 144 
129    inline  G4double DistanceToLine (const G4Th << 145    inline  G4double      DistanceToLine (const G4ThreeVector &p,
130                                     const G4Th << 146                                          const G4ThreeVector &x0,
131                                     const G4Th << 147                                          const G4ThreeVector &d,
132                                           G4Th << 148                                                G4ThreeVector &xx);
133                                                << 149                                                
134    inline G4bool IsAxis0    (G4int areacode) c << 150    inline  G4bool IsAxis0    (G4int areacode) const;
135    inline G4bool IsAxis1    (G4int areacode) c << 151    inline  G4bool IsAxis1    (G4int areacode) const;
136    inline G4bool IsOutside  (G4int areacode) c << 152    inline  G4bool IsOutside  (G4int areacode) const;
137    inline G4bool IsInside   (G4int areacode, G << 153    inline  G4bool IsInside   (G4int areacode, G4bool testbitmode = false) const;
138    inline G4bool IsBoundary (G4int areacode, G << 154    inline  G4bool IsBoundary (G4int areacode, G4bool testbitmode = false) const;
139    inline G4bool IsCorner   (G4int areacode, G << 155    inline  G4bool IsCorner   (G4int areacode, G4bool testbitmode = false) const;
140    inline G4bool IsValidNorm() const { return  << 156    inline  G4bool IsValidNorm() const { return fIsValidNorm; }
141    G4bool IsSameBoundary (G4VTwistSurface* sur << 157            G4bool IsSameBoundary (G4VTwistSurface *surface1, G4int areacode1,
142                           G4VTwistSurface* sur << 158                                   G4VTwistSurface *surface2, G4int areacode2 ) const;
143    inline G4int  GetAxisType(G4int areacode, G << 159    inline  G4int  GetAxisType(G4int areacode, G4int whichaxis) const;
144                                                << 160 
145    inline G4ThreeVector ComputeGlobalPoint     << 161    inline  G4ThreeVector ComputeGlobalPoint     (const G4ThreeVector &lp) const;
146    inline G4ThreeVector ComputeLocalPoint      << 162    inline  G4ThreeVector ComputeLocalPoint      (const G4ThreeVector &gp) const;
147    inline G4ThreeVector ComputeGlobalDirection << 163    inline  G4ThreeVector ComputeGlobalDirection (const G4ThreeVector &lp) const;
148    inline G4ThreeVector ComputeLocalDirection  << 164    inline  G4ThreeVector ComputeLocalDirection  (const G4ThreeVector &gp) const;
149                                                   165   
150    // set methods                                 166    // set methods
151                                                   167 
152    inline void SetAxis(G4int i, const EAxis ax    168    inline void SetAxis(G4int i, const EAxis axis)  { fAxis[i] = axis; }
153    inline void SetNeighbours(G4VTwistSurface*  << 169    inline void SetNeighbours(G4VTwistSurface* axis0min, G4VTwistSurface* axis1min, 
154                              G4VTwistSurface*  << 170                              G4VTwistSurface* axis0max, G4VTwistSurface* axis1max);
155                                                   171 
156    virtual G4ThreeVector SurfacePoint(G4double << 172    virtual G4ThreeVector SurfacePoint(G4double , G4double,
157                                       G4bool i    173                                       G4bool isGlobal = false ) = 0 ;
158    virtual G4double GetBoundaryMin(G4double) =    174    virtual G4double GetBoundaryMin(G4double) = 0 ;
159    virtual G4double GetBoundaryMax(G4double) =    175    virtual G4double GetBoundaryMax(G4double) = 0 ;
160    virtual G4double GetSurfaceArea() = 0 ;        176    virtual G4double GetSurfaceArea() = 0 ;
161    virtual void GetFacets(G4int m, G4int n, G4    177    virtual void GetFacets(G4int m, G4int n, G4double xyz[][3],
162                           G4int faces[][4], G4    178                           G4int faces[][4], G4int iside) = 0 ;
163    G4int GetNode( G4int i, G4int j, G4int m, G << 179    G4int GetNode( G4int i, G4int j, G4int m, G4int n, G4int iside )  ;
164    G4int GetFace( G4int i, G4int j, G4int m, G << 180    G4int GetFace( G4int i, G4int j, G4int m, G4int n, G4int iside )  ;
165    G4int GetEdgeVisibility( G4int i, G4int j,  << 181    G4int GetEdgeVisibility( G4int i, G4int j, G4int m, G4int n, G4int number, G4int orientation) ;
166                             G4int number, G4in << 182 
                                                   >> 183 
                                                   >> 184  public:  // without description
167                                                   185 
168    G4VTwistSurface(__void__&);                    186    G4VTwistSurface(__void__&);
169      // Fake default constructor for usage res    187      // Fake default constructor for usage restricted to direct object
170      // persistency for clients requiring prea    188      // persistency for clients requiring preallocation of memory for
171      // persistifiable objects.                   189      // persistifiable objects.
172                                                   190 
173  protected:                                    << 191  protected:  // with description
174                                                   192  
175    inline G4VTwistSurface** GetNeighbours() {  << 193    // get methods
176    inline G4int GetNeighbours(G4int areacode,  << 194 
177    inline G4ThreeVector GetCorner(G4int areaco << 195    inline  G4VTwistSurface**  GetNeighbours() { return fNeighbours; } 
178    void GetBoundaryAxis(G4int areacode, EAxis  << 196    inline  G4int GetNeighbours(G4int areacode, G4VTwistSurface* surfaces[]);
179    void GetBoundaryLimit(G4int areacode, G4dou << 197    inline  G4ThreeVector GetCorner(G4int areacode) const;
180    virtual G4int GetAreaCode(const G4ThreeVect << 198            void GetBoundaryAxis(G4int areacode, EAxis axis[]) const;
181                                                << 199            void GetBoundaryLimit(G4int areacode, G4double limit[]) const;
182    virtual void SetBoundary(const G4int&       << 200    virtual G4int GetAreaCode(const G4ThreeVector &xx, G4bool withtol=true) = 0;
183                             const G4ThreeVecto << 201       
184                             const G4ThreeVecto << 202    // set methods
185                             const G4int&       << 203 
                                                   >> 204    virtual void SetBoundary(const G4int         &axiscode, 
                                                   >> 205                             const G4ThreeVector &direction,
                                                   >> 206                             const G4ThreeVector &x0, 
                                                   >> 207                             const G4int         &boundarytype);
186      // areacode must be one of them:             208      // areacode must be one of them:
187      // sAxis0 & sAxisMin, sAxis0 & sAxisMax,     209      // sAxis0 & sAxisMin, sAxis0 & sAxisMax,
188      // sAxis1 & sAxisMin, sAxis1 & sAxisMax.     210      // sAxis1 & sAxisMin, sAxis1 & sAxisMax.
189      // boundarytype represents the shape of l    211      // boundarytype represents the shape of locus
190      // from the start point to end point of b    212      // from the start point to end point of boundary.
191      // ex.                                       213      // ex.
192      // sAxisRho = linear line which start poi    214      // sAxisRho = linear line which start point is fixed at origin.
193      // sAxisPhi = part of circle which center    215      // sAxisPhi = part of circle which center placed at the origin.
194                                                   216                             
195    void SetCorner(G4int areacode, G4double x,     217    void SetCorner(G4int areacode, G4double x, G4double y, G4double z);
196                                                   218 
197  private:                                         219  private:
198                                                   220 
199    virtual void SetBoundaries() = 0;              221    virtual void SetBoundaries() = 0;
200    virtual void SetCorners()    = 0;              222    virtual void SetCorners()    = 0;
201                                                   223    
202  // data members -----------------------------    224  // data members ---------------------------------------------------------
203                                                   225 
204  public:                                          226  public:
205                                                   227 
206    static const G4int sOutside ;                  228    static const G4int sOutside ;
207    static const G4int sInside  ;                  229    static const G4int sInside  ;
208    static const G4int sBoundary;                  230    static const G4int sBoundary;
209    static const G4int sCorner;                    231    static const G4int sCorner;
210    static const G4int sC0Min1Min;                 232    static const G4int sC0Min1Min;
211    static const G4int sC0Max1Min;                 233    static const G4int sC0Max1Min;
212    static const G4int sC0Max1Max;                 234    static const G4int sC0Max1Max;
213    static const G4int sC0Min1Max;                 235    static const G4int sC0Min1Max;
214    static const G4int sAxisMin;                   236    static const G4int sAxisMin;
215    static const G4int sAxisMax;                   237    static const G4int sAxisMax;
216    static const G4int sAxisX;                     238    static const G4int sAxisX;
217    static const G4int sAxisY;                     239    static const G4int sAxisY;
218    static const G4int sAxisZ;                     240    static const G4int sAxisZ;
219    static const G4int sAxisRho;                   241    static const G4int sAxisRho;
220    static const G4int sAxisPhi;                   242    static const G4int sAxisPhi;
221    static const G4int sAxis0;                     243    static const G4int sAxis0;
222    static const G4int sAxis1;                     244    static const G4int sAxis1;
223    static const G4int sSizeMask;                  245    static const G4int sSizeMask;
224    static const G4int sAxisMask;                  246    static const G4int sAxisMask;
225    static const G4int sAreaMask;                  247    static const G4int sAreaMask;
226                                                   248 
227  protected:                                       249  protected:
228                                                   250  
229    class CurrentStatus                            251    class CurrentStatus 
230    {                                              252    {
231      public:                                   << 253     public:
232                                                   254 
233       CurrentStatus();                            255       CurrentStatus();
234       virtual ~CurrentStatus();                   256       virtual ~CurrentStatus();
235                                                   257       
236       inline G4ThreeVector GetXX(G4int i)         258       inline G4ThreeVector GetXX(G4int i)       const { return fXX[i];       }
237       inline G4double      GetDistance(G4int i    259       inline G4double      GetDistance(G4int i) const { return fDistance[i]; }
238       inline G4int         GetAreacode(G4int i    260       inline G4int         GetAreacode(G4int i) const { return fAreacode[i]; }
239       inline G4int         GetNXX()               261       inline G4int         GetNXX()             const { return fNXX;         }
240       inline G4bool        IsDone()               262       inline G4bool        IsDone()             const { return fDone;        }
241       inline G4bool        IsValid(G4int i)       263       inline G4bool        IsValid(G4int i)     const { return fIsValid[i];  }
242                                                   264 
243       void SetCurrentStatus(G4int                 265       void SetCurrentStatus(G4int                i, 
244                             G4ThreeVector&     << 266                             G4ThreeVector       &xx, 
245                             G4double&          << 267                             G4double            &dist, 
246                             G4int&             << 268                             G4int               &areacode, 
247                             G4bool&            << 269                             G4bool              &isvalid,
248                             G4int                 270                             G4int                nxx,
249                             EValidate             271                             EValidate            validate,
250                       const G4ThreeVector* p,  << 272                       const G4ThreeVector *p, 
251                       const G4ThreeVector* v = << 273                       const G4ThreeVector *v = 0);
252                                                   274 
253       void ResetfDone(EValidate validate,      << 275       void ResetfDone(EValidate            validate,
254                 const G4ThreeVector* p,        << 276                 const G4ThreeVector *p, 
255                 const G4ThreeVector* v = nullp << 277                 const G4ThreeVector *v = 0);
256                                                   278 
257                                                   279 
258       void DebugPrint() const;                    280       void DebugPrint() const;
259                                                   281 
260      private:                                  << 282     private:
261                                                   283 
262       G4double             fDistance[G4VSURFAC    284       G4double             fDistance[G4VSURFACENXX];
263       G4ThreeVector        fXX[G4VSURFACENXX];    285       G4ThreeVector        fXX[G4VSURFACENXX];
264       G4int                fAreacode[G4VSURFAC    286       G4int                fAreacode[G4VSURFACENXX];
265       G4bool               fIsValid[G4VSURFACE    287       G4bool               fIsValid[G4VSURFACENXX];
266       G4int                fNXX;                  288       G4int                fNXX;
267       G4ThreeVector        fLastp;                289       G4ThreeVector        fLastp;
268       G4ThreeVector        fLastv;                290       G4ThreeVector        fLastv;
269       EValidate            fLastValidate;         291       EValidate            fLastValidate;
270       G4bool               fDone;                 292       G4bool               fDone;
271    };                                             293    };
272                                                   294       
273    class Boundary                                 295    class Boundary 
274    {                                              296    {
275      public:                                   << 297     public:
276                                                << 298       Boundary();
277       Boundary() = default;                    << 299       virtual ~Boundary();
278       virtual ~Boundary() = default;           << 
279                                                   300       
280       void SetFields(const G4int&        areac << 301       void SetFields(const G4int         &areacode, 
281                      const G4ThreeVector& d,   << 302                      const G4ThreeVector &d, 
282                      const G4ThreeVector& x0,  << 303                      const G4ThreeVector &x0, 
283                      const G4int&         boun << 304                      const G4int         &boundarytype);
284                                                   305       
285       G4bool IsEmpty() const;                     306       G4bool IsEmpty() const;
286                                                   307       
287       G4bool GetBoundaryParameters(const G4int << 308       G4bool GetBoundaryParameters(const G4int         &areacode, 
288                                          G4Thr << 309                                          G4ThreeVector &d,
289                                          G4Thr << 310                                          G4ThreeVector &x0, 
290                                          G4int << 311                                          G4int         &boundarytype) const;
291                                                << 
292      private:                                  << 
293                                                   312 
294       G4int          fBoundaryAcode{-1};       << 313     private:
                                                   >> 314       G4int          fBoundaryAcode;
295       G4ThreeVector  fBoundaryDirection;          315       G4ThreeVector  fBoundaryDirection;
296       G4ThreeVector  fBoundaryX0;                 316       G4ThreeVector  fBoundaryX0;
297       G4int          fBoundaryType{0};         << 317       G4int          fBoundaryType;
298    };                                             318    };
299                                                   319 
300    EAxis               fAxis[2];                  320    EAxis               fAxis[2];
301    G4double            fAxisMin[2];               321    G4double            fAxisMin[2];
302    G4double            fAxisMax[2];               322    G4double            fAxisMax[2];
303    CurrentStatus       fCurStatWithV;             323    CurrentStatus       fCurStatWithV;
304    CurrentStatus       fCurStat;                  324    CurrentStatus       fCurStat;
305    G4RotationMatrix    fRot;                      325    G4RotationMatrix    fRot;
306    G4ThreeVector       fTrans;                    326    G4ThreeVector       fTrans;
307    G4int               fHandedness;               327    G4int               fHandedness;
308    class G4SurfCurNormal                          328    class G4SurfCurNormal
309    {                                              329    {
310      public:                                      330      public:
311                                                << 
312        G4ThreeVector p;                           331        G4ThreeVector p;
313        G4ThreeVector normal;                      332        G4ThreeVector normal;
314    };                                             333    };
315    G4SurfCurNormal     fCurrentNormal;            334    G4SurfCurNormal     fCurrentNormal;
316    G4bool              fIsValidNorm;              335    G4bool              fIsValidNorm;
317    G4double            kCarTolerance;             336    G4double            kCarTolerance;
318                                                   337                         
319  private:                                         338  private:
320                                                   339                      
321    G4VTwistSurface* fNeighbours[4]; // {0,1,2, << 340    G4VTwistSurface    *fNeighbours[4]; // {0,1,2,3} = sAxis0min, sAxis1min, 
322                                     //         << 341                                   //             sAxis0max, sAxis1max
323    G4ThreeVector fCorners[4];     // corners o    342    G4ThreeVector fCorners[4];     // corners of the surface in local coordinate
324    Boundary      fBoundaries[4];  // boundarie    343    Boundary      fBoundaries[4];  // boundaries of the surface.
325    G4String      fName;                           344    G4String      fName;
326                                                   345    
327    class G4SurfSideQuery                          346    class G4SurfSideQuery
328    {                                              347    {
329      public:                                      348      public:
330                                                << 
331        G4ThreeVector me;                          349        G4ThreeVector me;
332        G4ThreeVector vec;                         350        G4ThreeVector vec;
333        G4bool        withTol;                     351        G4bool        withTol;
334        G4int         amIOnLeftSide;               352        G4int         amIOnLeftSide;
335    };                                             353    };
336    G4SurfSideQuery fAmIOnLeftSide;                354    G4SurfSideQuery fAmIOnLeftSide;
337 };                                                355 };
338                                                   356 
339 //============================================    357 //========================================================
340 // inline functions                               358 // inline functions
341 //============================================    359 //========================================================
342                                                   360 
343 struct Intersection                               361 struct Intersection
344 {                                                 362 {    
345   G4double phi ;  // parameter phi                363   G4double phi ;  // parameter phi
346   G4double u ;    // parameter u                  364   G4double u ;    // parameter u
347   G4ThreeVector xx ;   // intersection point i    365   G4ThreeVector xx ;   // intersection point in cartesian
348   G4double distance ;  // distance to intersec    366   G4double distance ;  // distance to intersection
349   G4int areacode ;     // the areacode of the  << 367   G4int areacode;      // the areacode of the intersection
350   G4bool isvalid ;     // valid intersection ?    368   G4bool isvalid ;     // valid intersection ??
351                                                   369 
352 };                                                370 };
353                                                   371 
354 inline                                            372 inline
355 G4bool DistanceSort( const Intersection& a, co << 373 G4bool DistanceSort( const Intersection &a, const Intersection &b) 
356 {                                                 374 {
357   return a.distance < b.distance ;                375   return a.distance < b.distance ;
358 }                                                 376 }
359                                                   377 
360 inline                                            378 inline
361 G4bool EqualIntersection( const Intersection&  << 379 G4bool EqualIntersection( const Intersection &a, const Intersection &b)
362 {                                                 380 {
363   return ( ( a.xx - b.xx ).mag() < 1E-9*CLHEP: << 381   return ( ( a.xx - b.xx ).mag() < 1E-9*CLHEP::mm ) ;
364 }                                                 382 }
365                                                   383 
366 #include "G4VTwistSurface.icc"                    384 #include "G4VTwistSurface.icc"
367                                                   385 
368 #endif                                            386 #endif
369                                                   387