Geant4 Cross Reference

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Geant4/materials/include/G4OpticalSurface.hh

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Differences between /materials/include/G4OpticalSurface.hh (Version 11.3.0) and /materials/include/G4OpticalSurface.hh (Version 10.6.p3)


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 25                                                <<  25 //
                                                   >>  26 //
                                                   >>  27 //
                                                   >>  28 // 
 26 //////////////////////////////////////////////     29 ////////////////////////////////////////////////////////////////////////
 27 // G4OpticalSurface Definition                     30 // G4OpticalSurface Definition
 28 //////////////////////////////////////////////     31 ////////////////////////////////////////////////////////////////////////
 29 //                                                 32 //
 30 // File:        G4OpticalSurface.hh                33 // File:        G4OpticalSurface.hh
 31 // Description: A optical surface class for us     34 // Description: A optical surface class for use in G4OpBoundaryProcess
 32 // Version:     2.0                                35 // Version:     2.0
 33 // Created:     1997-06-26                         36 // Created:     1997-06-26
 34 // Author:      Peter Gumplinger                   37 // Author:      Peter Gumplinger
 35 // Updated:     1999-10-29 add method and clas     38 // Updated:     1999-10-29 add method and class descriptors
 36 //              2017-02-24 Mariele Stockhoff a <<  39 //              2017-02-24 Mariele Stockhoff add DAVIS model 
                                                   >>  40 // mail:        gum@triumf.ca
 37 //                                                 41 //
 38 // Class Description:                          << 
 39 // A optical surface class for use in the G4Op << 
 40 // Contains the enumerations: G4OpticalSurface << 
 41 // and G4OpticalSurfaceModel.                  << 
 42 //////////////////////////////////////////////     42 ////////////////////////////////////////////////////////////////////////
 43                                                    43 
 44 #ifndef G4OpticalSurface_h                         44 #ifndef G4OpticalSurface_h
 45 #define G4OpticalSurface_h 1                       45 #define G4OpticalSurface_h 1
 46                                                    46 
                                                   >>  47 /////////////
                                                   >>  48 // Includes
                                                   >>  49 /////////////
                                                   >>  50 
                                                   >>  51 #include "G4Types.hh"
 47 #include "G4Physics2DVector.hh"                    52 #include "G4Physics2DVector.hh"
 48 #include "G4SurfaceProperty.hh"                    53 #include "G4SurfaceProperty.hh"
 49 #include "G4Types.hh"                          << 
 50                                                    54 
 51 // clang-format off                            <<  55 // Class Description:
                                                   >>  56 // A optical surface class for use in the G4OpBoundaryProcess class.
                                                   >>  57 // Contains the enumerations: G4OpticalSurfaceFinish, G4OpticalSurfaceType,
                                                   >>  58 // and G4OpticalSurfaceModel.
                                                   >>  59 // Class Description - End:
                                                   >>  60 
 52 enum G4OpticalSurfaceFinish                        61 enum G4OpticalSurfaceFinish
 53 {                                                  62 {
 54   polished,              // smooth perfectly p <<  63    polished,                    // smooth perfectly polished surface
 55   polishedfrontpainted,  // smooth top-layer ( <<  64    polishedfrontpainted,        // smooth top-layer (front) paint
 56   polishedbackpainted,   // same is 'polished' <<  65    polishedbackpainted,         // same is 'polished' but with a back-paint
 57                                                <<  66 
 58   ground,              // rough surface        <<  67    ground,                      // rough surface
 59   groundfrontpainted,  // rough top-layer (fro <<  68    groundfrontpainted,          // rough top-layer (front) paint
 60   groundbackpainted,   // same as 'ground' but <<  69    groundbackpainted,           // same as 'ground' but with a back-paint
 61                                                <<  70 
 62   // for LBNL LUT model                        <<  71    polishedlumirrorair,         // mechanically polished surface, with lumirror
 63   polishedlumirrorair,   // mechanically polis <<  72    polishedlumirrorglue,        // mechanically polished surface, with lumirror & meltmount
 64   polishedlumirrorglue,  // mechanically polis <<  73    polishedair,                 // mechanically polished surface
 65                          // meltmount          <<  74    polishedteflonair,           // mechanically polished surface, with teflon
 66   polishedair,           // mechanically polis <<  75    polishedtioair,              // mechanically polished surface, with tio paint
 67   polishedteflonair,     // mechanically polis <<  76    polishedtyvekair,            // mechanically polished surface, with tyvek
 68   polishedtioair,        // mechanically polis <<  77    polishedvm2000air,           // mechanically polished surface, with esr film
 69   polishedtyvekair,      // mechanically polis <<  78    polishedvm2000glue,          // mechanically polished surface, with esr film & meltmount
 70   polishedvm2000air,     // mechanically polis <<  79 
 71   polishedvm2000glue,    // mechanically polis <<  80    etchedlumirrorair,           // chemically etched surface, with lumirror
 72                          // meltmount          <<  81    etchedlumirrorglue,          // chemically etched surface, with lumirror & meltmount
 73                                                <<  82    etchedair,                   // chemically etched surface
 74   etchedlumirrorair,   // chemically etched su <<  83    etchedteflonair,             // chemically etched surface, with teflon
 75   etchedlumirrorglue,  // chemically etched su <<  84    etchedtioair,                // chemically etched surface, with tio paint
 76   etchedair,           // chemically etched su <<  85    etchedtyvekair,              // chemically etched surface, with tyvek
 77   etchedteflonair,     // chemically etched su <<  86    etchedvm2000air,             // chemically etched surface, with esr film
 78   etchedtioair,        // chemically etched su <<  87    etchedvm2000glue,            // chemically etched surface, with esr film & meltmount
 79   etchedtyvekair,      // chemically etched su <<  88 
 80   etchedvm2000air,     // chemically etched su <<  89    groundlumirrorair,           // rough-cut surface, with lumirror
 81   etchedvm2000glue,    // chemically etched su <<  90    groundlumirrorglue,          // rough-cut surface, with lumirror & meltmount
 82                                                <<  91    groundair,                   // rough-cut surface
 83   groundlumirrorair,   // rough-cut surface, w <<  92    groundteflonair,             // rough-cut surface, with teflon
 84   groundlumirrorglue,  // rough-cut surface, w <<  93    groundtioair,                // rough-cut surface, with tio paint
 85   groundair,           // rough-cut surface    <<  94    groundtyvekair,              // rough-cut surface, with tyvek
 86   groundteflonair,     // rough-cut surface, w <<  95    groundvm2000air,             // rough-cut surface, with esr film
 87   groundtioair,        // rough-cut surface, w <<  96    groundvm2000glue,            // rough-cut surface, with esr film & meltmount
 88   groundtyvekair,      // rough-cut surface, w <<  97    
 89   groundvm2000air,     // rough-cut surface, w <<  98    // for DAVIS model
 90   groundvm2000glue,    // rough-cut surface, w <<  99    Rough_LUT,                   //rough surface 
 91                                                << 100    RoughTeflon_LUT,             //rough surface wrapped in Teflon tape
 92   // for DAVIS model                           << 101    RoughESR_LUT,                //rough surface wrapped with ESR
 93   Rough_LUT,              // rough surface     << 102    RoughESRGrease_LUT,          //rough surface wrapped with ESR
 94   RoughTeflon_LUT,        // rough surface wra << 103                                 //and coupled with opical grease
 95   RoughESR_LUT,           // rough surface wra << 104    Polished_LUT,                //polished surface 
 96   RoughESRGrease_LUT,     // rough surface wra << 105    PolishedTeflon_LUT,          //polished surface wrapped in Teflon tape
 97                           // and coupled with  << 106    PolishedESR_LUT,             //polished surface wrapped with ESR
 98   Polished_LUT,           // polished surface  << 107    PolishedESRGrease_LUT,       //polished surface wrapped with ESR
 99   PolishedTeflon_LUT,     // polished surface  << 108                                 //and coupled with opical grease
100   PolishedESR_LUT,        // polished surface  << 109    Detector_LUT                 //polished surface with optical grease 
101   PolishedESRGrease_LUT,  // polished surface  << 
102                           // and coupled with  << 
103   Detector_LUT            // polished surface  << 
104 };                                                110 };
105                                                   111 
106 enum G4OpticalSurfaceModel                        112 enum G4OpticalSurfaceModel
107 {                                                 113 {
108   glisur,   // original GEANT3 model           << 114    glisur,                      // original GEANT3 model
109   unified,  // UNIFIED model                   << 115    unified,                     // UNIFIED model
110   LUT,      // Look-Up-Table model (LBNL model << 116    LUT,                         // Look-Up-Table model
111   DAVIS,    // DAVIS model                     << 117    DAVIS,                       // DAVIS model
112   dichroic  // dichroic filter                 << 118    dichroic                     // dichroic filter
113 };                                                119 };
114                                                   120 
115 // clang-format on                             << 
116                                                << 
117 class G4MaterialPropertiesTable;                  121 class G4MaterialPropertiesTable;
118                                                   122 
                                                   >> 123 /////////////////////
                                                   >> 124 // Class Definition
                                                   >> 125 /////////////////////
                                                   >> 126 
119 class G4OpticalSurface : public G4SurfacePrope    127 class G4OpticalSurface : public G4SurfaceProperty
120 {                                                 128 {
121  public:                                       << 
122   // Constructor of an optical surface object. << 
123   G4OpticalSurface(const G4String& name, G4Opt << 
124     G4OpticalSurfaceFinish finish = polished,  << 
125     G4double value = 1.0);                     << 
126                                                << 
127   ~G4OpticalSurface() override;                << 
128                                                << 
129   G4OpticalSurface(const G4OpticalSurface& rig << 
130   G4OpticalSurface& operator=(const G4OpticalS << 
131                                                << 
132   G4bool operator==(const G4OpticalSurface& ri << 
133   G4bool operator!=(const G4OpticalSurface& ri << 
134                                                << 
135   void SetType(const G4SurfaceType& type) over << 
136                                                << 
137   // Returns the optical surface finish.       << 
138   inline G4OpticalSurfaceFinish GetFinish() co << 
139                                                << 
140   // Sets the optical surface finish.          << 
141   void SetFinish(const G4OpticalSurfaceFinish) << 
142                                                << 
143   // Returns the optical surface model used.   << 
144   inline G4OpticalSurfaceModel GetModel() cons << 
145                                                << 
146   // Sets the optical surface model to be foll << 
147   inline void SetModel(const G4OpticalSurfaceM << 
148                                                << 
149   // Returns an unified model surface paramete << 
150   inline G4double GetSigmaAlpha() const { retu << 
151                                                   129 
152   // Sets an unified model surface parameter.  << 130 public: // Without description
153   inline void SetSigmaAlpha(const G4double s_a << 131   
154                                                << 132         //////////////
155   // Returns the optical surface polish type.  << 133         // Operators
156   G4double GetPolish() const { return polish;  << 134         //////////////
157                                                << 135   
158   // Sets the optical surface polish type.     << 136   G4OpticalSurface(const G4OpticalSurface &right);
159   inline void SetPolish(const G4double plsh) { << 137   G4OpticalSurface & operator=(const G4OpticalSurface &right);
160                                                << 138   
161   // Retrieves the pointer of the G4MaterialPr << 139   G4bool operator==(const G4OpticalSurface &right) const;
162   // attached to optical surface.              << 140   G4bool operator!=(const G4OpticalSurface &right) const;
163   inline G4MaterialPropertiesTable* GetMateria << 141 
164   {                                            << 142 public: // With description
165     return theMaterialPropertiesTable;         << 143 
166   }                                            << 144         ////////////////////////////////
167                                                << 145         // Constructors and Destructor
168   // Attaches a G4MaterialPropertiesTable to t << 146         ////////////////////////////////
169   inline void SetMaterialPropertiesTable(G4Mat << 147 
170   {                                            << 148   G4OpticalSurface(const G4String& name,
171     theMaterialPropertiesTable = anMPT;        << 149                          G4OpticalSurfaceModel model = glisur,
172   }                                            << 150                          G4OpticalSurfaceFinish finish = polished,
173                                                << 151                          G4SurfaceType type = dielectric_dielectric,
174   // Prints information about the optical surf << 152                          G4double value = 1.0);
175   void DumpInfo() const;                       << 153         // Constructor of an optical surface object.
176                                                << 154 
177   // call the correct ReadXXXFile              << 155 public: // Without description
178   void ReadDataFile();                         << 156 
179                                                << 157   virtual ~G4OpticalSurface();
180   // read a zlib-compressed file               << 158 
181   void ReadCompressedFile(const G4String&, std << 159   ////////////
182                                                << 160   // Methods
183   // Method to read the Look-Up-Table into arr << 161         ////////////
184   void ReadLUTFile();                          << 162 
185                                                << 163   // public methods
186   // for DAVIS model                           << 164 
187   inline G4double GetAngularDistributionValue( << 165 public: // With description
188                                                << 166 
189   // Returns the AngularDistributionValue      << 167         void SetType(const G4SurfaceType& type);
190   inline G4double GetAngularDistributionValueL << 168 
191                                                << 169         inline G4OpticalSurfaceFinish GetFinish() const { return theFinish; }
192   // Method to read the Davis Look-Up-Table in << 170         // Returns the optical surface finish.
193   void ReadLUTDAVISFile();                     << 171         void SetFinish(const G4OpticalSurfaceFinish );
194                                                << 172         // Sets the optical surface finish.
195   // Method to read the Look-Up-Table for refl << 173 
196   void ReadReflectivityLUTFile();              << 174         inline G4OpticalSurfaceModel GetModel() const { return theModel; }
197                                                << 175         // Returns the optical surface model used.
198   // Returns the reflectivity value from the D << 176         inline void SetModel(const G4OpticalSurfaceModel model)
199   inline G4double GetReflectivityLUTValue(G4in << 177                                                       { theModel = model; }
200                                                << 178         // Sets the optical surface model to be followed.
201   // Returns the number of lines in the Davis  << 179 
202   G4int GetInmax() const;                      << 180   inline G4double GetSigmaAlpha() const { return sigma_alpha; }
203                                                << 181         // Returns an unified model surface parameter.
204   // Returns the number of probability values  << 182   inline void SetSigmaAlpha(const G4double s_a) { sigma_alpha = s_a; }
205   G4int GetLUTbins() const;                    << 183         // Sets an unified model surface parameter.
206                                                << 184 
207   // Returns the number of reflectivity values << 185   G4double GetPolish() const { return polish; }
208   G4int GetRefMax() const;                     << 186         // Returns the optical surface polish type.
209                                                << 187   inline void SetPolish(const G4double plsh) { polish=plsh; }
210   G4int GetThetaIndexMax() const;              << 188         // Sets the optical surface polish type.
211   G4int GetPhiIndexMax() const;                << 189 
212                                                << 190   inline G4MaterialPropertiesTable* GetMaterialPropertiesTable() const
213   // Method to read the dichroic surface data  << 191                                        { return theMaterialPropertiesTable; }
214   void ReadDichroicFile();                     << 192         // Retrieves the pointer of the G4MaterialPropertiesTable 
215                                                << 193         // attached to optical surface.
216   inline G4Physics2DVector* GetDichroicVector( << 194 
217                                                << 195   inline void SetMaterialPropertiesTable(G4MaterialPropertiesTable *anMPT)
218  private:                                      << 196                                        { theMaterialPropertiesTable = anMPT; }
219   G4OpticalSurfaceModel theModel;  // Surface  << 197         // Attaches a G4MaterialPropertiesTable to the optical surface.
220   G4OpticalSurfaceFinish theFinish;  // Surfac << 198 
221                                                << 199   void DumpInfo() const;
222   G4double sigma_alpha;  // The sigma of micro << 200         // Prints information about the optical surface.
223   G4double polish;  // Polish parameter in gli << 201 
224                                                << 202         void ReadLUTFile(void);
225   G4MaterialPropertiesTable* theMaterialProper << 203         // Method to read the Look-Up-Table into array AngularDistribution
226                                                << 204 
227   static const G4int incidentIndexMax = 91;    << 205         inline G4double GetAngularDistributionValue(G4int, G4int, G4int);
228   static const G4int thetaIndexMax = 45;       << 206         
229   static const G4int phiIndexMax = 37;         << 207         // for DAVIS model
230                                                << 208 
231   G4float* AngularDistribution;                << 209         inline G4double GetAngularDistributionValueLUT(G4int);
232   G4Physics2DVector* DichroicVector;           << 210         // Returns the AngularDistributionValue
233                                                << 211 
234   // for DAVIS model                           << 212         void ReadLUTDAVISFile(void);
235   static const G4int indexmax = 7280001;  // 3 << 213         // Method to read the Davis Look-Up-Table into array AngularDistribution
236   static const G4int RefMax = 90;              << 214  
237   static const G4int LUTbins = 20000;          << 215         void ReadReflectivityLUTFile(void);
238   G4float* AngularDistributionLUT;             << 216         // Method to read the Look-Up-Table for reflectivity
239   G4float* Reflectivity;                       << 217         
                                                   >> 218         inline G4double GetReflectivityLUTValue(G4int);
                                                   >> 219         // Returns the reflectivity value from the Davis Look-Up-Table
                                                   >> 220         
                                                   >> 221         G4int GetInmax(void) const;
                                                   >> 222         // Returns the number of lines in the Davis Look-Up-Table
                                                   >> 223 
                                                   >> 224         G4int GetLUTbins(void) const;
                                                   >> 225         // Returns the number of probability values per incidentangle
                                                   >> 226 
                                                   >> 227         G4int GetRefMax(void) const;
                                                   >> 228         // Returns the number of reflectivity values per angle
                                                   >> 229     
                                                   >> 230         G4int GetThetaIndexMax(void) const;
                                                   >> 231         G4int GetPhiIndexMax(void) const;
                                                   >> 232 
                                                   >> 233         void ReadDichroicFile(void);
                                                   >> 234         // Method to read the dichroic surface data file into Dichroic
                                                   >> 235 
                                                   >> 236         inline G4Physics2DVector* GetDichroicVector();
                                                   >> 237 
                                                   >> 238 private:
                                                   >> 239 
                                                   >> 240 // ------------------
                                                   >> 241 // Basic data members ( To define an optical surface)
                                                   >> 242 // ------------------
                                                   >> 243 
                                                   >> 244         G4OpticalSurfaceModel theModel;   // Surface model
                                                   >> 245         G4OpticalSurfaceFinish theFinish; // Surface finish
                                                   >> 246 
                                                   >> 247   G4double sigma_alpha;   // The sigma of micro-facet polar angle
                                                   >> 248   G4double polish;    // Polish parameter in glisur model
                                                   >> 249 
                                                   >> 250   G4MaterialPropertiesTable* theMaterialPropertiesTable;
                                                   >> 251 
                                                   >> 252         static const G4int incidentIndexMax = 91;
                                                   >> 253         static const G4int thetaIndexMax = 45;
                                                   >> 254         static const G4int phiIndexMax = 37;
                                                   >> 255 
                                                   >> 256         G4float* AngularDistribution;
                                                   >> 257         G4Physics2DVector* DichroicVector;
                                                   >> 258 
                                                   >> 259         // for DAVIS model
                                                   >> 260         static const G4int indexmax = 7280001; // 3640001; 
                                                   >> 261         static const G4int RefMax = 90; 
                                                   >> 262         static const G4int LUTbins =20000;
                                                   >> 263         G4float* AngularDistributionLUT;
                                                   >> 264         G4float* Reflectivity;
240 };                                                265 };
241                                                   266 
242 ////////////////////                              267 ////////////////////
243 // Inline methods                                 268 // Inline methods
244 ////////////////////                              269 ////////////////////
245                                                   270 
246 inline G4double G4OpticalSurface::GetAngularDi << 271 inline
247   G4int angleIncident, G4int thetaIndex, G4int << 272  G4double G4OpticalSurface::GetAngularDistributionValue(G4int angleIncident,
                                                   >> 273                                                         G4int thetaIndex,
                                                   >> 274                                                         G4int phiIndex)
248 {                                                 275 {
249   G4int product = angleIncident * thetaIndex * << 276   return AngularDistribution[angleIncident+
250   if (product < 0 || product >= incidentIndexM << 277                              thetaIndex*incidentIndexMax+
251     G4ExceptionDescription ed;                 << 278                              phiIndex*thetaIndexMax*incidentIndexMax];
252     ed << "Index angleIncident: " << angleInci << 
253        << " phiIndex: " << phiIndex << " out o << 
254     G4Exception("G4OpticalSurface::GetAngularD << 
255     return 0.;                                 << 
256   }                                            << 
257   return (G4double)AngularDistribution[angleIn << 
258                                        phiInde << 
259 }                                                 279 }
260                                                   280 
261 inline G4double G4OpticalSurface::GetAngularDi << 281 inline
                                                   >> 282  G4double G4OpticalSurface::GetAngularDistributionValueLUT(G4int i)
262 {                                                 283 {
263   if (i < 0 || i >= indexmax) {                << 284   return AngularDistributionLUT[i];
264     G4ExceptionDescription ed;                 << 
265     ed << "Index " << i << " out of range!";   << 
266     G4Exception("G4OpticalSurface::GetAngularD << 
267     return 0.;                                 << 
268   }                                            << 
269   return (G4double)AngularDistributionLUT[i];  << 
270 }                                                 285 }
271                                                   286 
272 inline G4double G4OpticalSurface::GetReflectiv << 287 inline
                                                   >> 288  G4double G4OpticalSurface::GetReflectivityLUTValue(G4int i)
273 {                                                 289 {
274   if (i < 0 || i >= RefMax) {                  << 290   return Reflectivity[i];
275     G4ExceptionDescription ed;                 << 
276     ed << "Index " << i << " out of range!";   << 
277     G4Exception("G4OpticalSurface::GetReflecti << 
278     return 0.;                                 << 
279   }                                            << 
280   return (G4double)Reflectivity[i];            << 
281 }                                                 291 }
282                                                   292 
283 inline G4Physics2DVector* G4OpticalSurface::Ge << 293 inline
                                                   >> 294  G4Physics2DVector* G4OpticalSurface::GetDichroicVector()
                                                   >> 295 {
                                                   >> 296   return DichroicVector;
                                                   >> 297 }
284                                                   298 
285 #endif /* G4OpticalSurface_h */                   299 #endif /* G4OpticalSurface_h */
286                                                   300